1. Top of page
  2. Abstract
  3. 1 JIPB Editors-in-Chief
  4. 2 JIPB's Academic Development
  5. 3 Editing, Publishing and Circulation
  6. 4 Event Timeline
  7. Acknowledgements
  8. References

In celebration of JIPB's 60th anniversary, this paper summarizes and reviews the development process of the journal. To start, we offer our heartfelt thanks to JIPB's pioneer Editors-in-Chief who helped get the journal off the ground and make it successful. Academic achievement is the soul of academic journals, and this paper summarizes JIPB's course of academic development by analyzing it in four stages: the first two stages are mostly qualitative analyses, and the latter two stages are dedicated to quantitative analyses. Most-cited papers were statistically analyzed. Improvements in editing, publication, distribution and online accessibility—which are detailed in this paper—contribute to JIPB's sustainable development. In addition, JIPB's evaluation index and awards are provided with accompanying pictures. At the end of the paper, JIPB's milestones are listed chronologically. We believe that JIPB's development, from a national journal to an international one, parallels the development of the Chinese plant sciences.

Journal of Integrative Plant Biology (JIPB) is a peer-reviewed, monthly journal that reports the latest plant biology discoveries. It was established in 1952 as Acta Botanica Sinica (ABS), and is sponsored by the Botanical Society of China and the Institute of Botany, Chinese Academy of Sciences (CAS). After 2002, ABS started to publish exclusively in English for the ease of the worldwide scientific community, and in 2005, the journal began to collaborate with the Cambridge-based Blackwell Publishing Group (now Wiley-Blackwell) under the new title Journal of Integrative Plant Biology (Liu 2012). JIPB is one of the most influential and comprehensive biological periodicals in China. The journal is now subscribed to by over 14,200 libraries worldwide, and is indexed by 67 different databases (Liu 2012). JIPB stands as a notable representative of the development of Chinese botany research, and is of significant importance in the worldwide plant science community.

1 JIPB Editors-in-Chief

  1. Top of page
  2. Abstract
  3. 1 JIPB Editors-in-Chief
  4. 2 JIPB's Academic Development
  5. 3 Editing, Publishing and Circulation
  6. 4 Event Timeline
  7. Acknowledgements
  8. References

Throughout the development of JIPB, the journal's Editors-in-Chief (EIC) have played a crucial role, most notably in the academic realm. These EIC not only helped the editorial board to correctly grasp the overall positioning and future development of the journal, but also took the lead in submitting their own valuable research results. These publications have played a very important role in promoting JIPB's academic merit, and have also guided the development of their specific subjects of focus. To show our appreciation for the hard work that has gone into making JIPB into the prominent journal it is today, we would like to extend a heartfelt thanks to the journal's EICs.

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[Professor Shih-Wei Loo, Plant physiologist (1952–1953, term as JIPB's EIC. The same format follows for the EICs below) Areas of Expertise: One of the pioneers of plant tissue culture.]

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[Professor Cheng-Hou Lou, Academician of CAS (1954–1958) Areas of Expertise: Plant physiology and agricultural scientist and educator, and one of the founders of plant physiology research in China.]

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[Professor Sung-Shu Chien, Academician of the CAS (1959–1966) Areas of Expertise: Plant taxonomy and plant physiology.]

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[Professor Cheng Tsui, Plant physiologist (1979–1986) aAreas of Expertise: Plant physiology, rice moisture physiology, plant nutrition, plant hormones, and other notable research.]

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[Professor Fu-Hsiung Wang, Academician of the CAS (1987–1995) Areas of Expertise: Plant reproduction and one of the founders of palynology in China.]

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[Professor Xin-Shi Zhang, Academician of the CAS (1995–1999) Areas of Expertise: Mapping of China's mountain, plateau, forest, grassland and desert vegetation, as well as quantitative vegetation ecology and global change ecology research.]

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[Professor He-Chun Ye, Phytochemist (1999–2003) Areas of Expertise: Plant secondary metabolism and metabolic engineering research.]

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[Professor Xing-Guo Han, Plant ecologist (2004–2008) Areas of Expertise: Biodiversity of ecosystem functioning, nitrogen deposition and biodiversity change, stoichiometric homeostasis and ecosystem functioning, nutrient resorption, and plant-soil feedback.]

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[Professor Hong Ma, Plant developmental biologist (2005–2008) Areas of Expertise: Flower development and evolution, male fertility and meiotic gene function, gene family evolution, and its relationship to gene function duplication mechanisms and organism evolution.]

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[Professor Chun-Ming Liu, Plant developmental biologist (2007–2008, Executive Editor; 2009–Present, Chief Editor) Areas of Expertise: Cell-cell communication, and cell fate determination during embryo development.]

2 JIPB's Academic Development

  1. Top of page
  2. Abstract
  3. 1 JIPB Editors-in-Chief
  4. 2 JIPB's Academic Development
  5. 3 Editing, Publishing and Circulation
  6. 4 Event Timeline
  7. Acknowledgements
  8. References

The academic development of JIPB is generally representative of the development of plant sciences in China. JIPB has played the leading role in the development of botany studies in China, since many significant botanical research results in this country were published in this journal. Based on the content of papers published in JIPB, and JIPB's own evolution, the academic development course of JIPB can best be divided into the following four stages.

From 1952 to 1966, the papers published in JIPB largely presented preliminary observation results on botany in China. From 1973 to 1988, the papers submitted were not only related to macroscopic observations but also to mechanism research based on microscopic experiments. From 1989 to 2001, JIPB's papers were mainly focused on research achievements observed by using experimental biological methods at different scales. From 2002 to the present day, JIPB's papers have focused on plant growth and development mechanism research results obtained through biochemistry and molecular biology techniques, not only from China, but also from many international authors.

2.1 Papers from 1952 to 1966: Preliminary observations

JIPB was originally established in 1952, and was launched as a quarterly journal. In 1966, as a result of China's Cultural Revolution it was forced to temporarily discontinue most of its research activity. During this 15-year period, 51 issues in 15 volumes were published. Papers published consisted of observations and descriptions on patterns in tissue and organ levels, as well as on the overall level of structure and function of plants, their growth and development, distribution and evolution, and interaction with the environment. Mechanisms analyses were also published.

Research on plant embryology in China prior to the 1950s was centered mainly on observations and descriptions of gymnosperm embryogenesis. The 1950s to the 1960s were witness to great scientific growth, as a large number of plant embryology studies were carried out in laboratories, scientific talent was cultivated, and many important achievements were published. Among the papers written during this period, many were published in JIPB. These include papers written by EIC Fu-Hsiung Wang on Glyptostrobus (Wong 1952, 1953), Taxodium distichum (Wong 1953), and Keteleeria evelyniana (Wang and Yang 1960), papers written by Tang (1953) on Torreya grandis and other gymnosperm embryogenesis research, papers written by Hu (У Су-сюань 1956) on Oryza sativa and Sorghum vulgase, Hu and Chu (1965) on Hibiscus cannabinules, Gossypium hirsutum, and wheat embryo development (Hu 1960, 1963–1965), and papers on angiosperm cells in development and the process of fertilization through DNA histochemical observation (Hu and Chu 1964). All of these studies represented groundbreaking research, and were all published in JIPB.

In plant anatomy, Lee wrote a large number of observed results on the different tissues and organs of important plants, and these important research results were published in JIPB (Li and Zhang 1962a, 1962b, 1963, 1964; Lee and Sun 1963, 1965; Lee et  al. 1964a, 1964b). In addition to this, Lee also composed a noteworthy monograph entitled “Plant Anatomy.” Observation and research results by Kuo and Wong (1963, 1964) and Tsui and Hu (1962) on the different organs and tissues of sunflower, carrot, and orange (Parthenocissus tricuspidata), were also published in JIPB during this period. These important studies laid the foundation for the formation and development of structural botany and plant reproductive biology research in China.

In the area of plant physiology, published papers focused mainly on observations of the growth and development of a variety of plants at different growth stages of the cell, tissue, organ and more. There were also many papers published on observations of plant growth and metabolism through application of external factors such as plant growth hormones and various heavy metals (Tien and Tang 1963; Zhao 1963; Lin and Zhou 1963; Kuo 1964; Kuang et  al. 1966; Kuo and Lou 1966). Of notable importance, major discovery and observation results on cytomixis and intercellular substance exchange were published in JIPB during this period (Cheng 1955; Hu 1955a, 1955b, 1956, 1958; Lou 1955; Cheng and Wong 1956; Lou et  al. 1956).

In the area of plant ecology, the majority of research achievements were in geobotany and vegetation regionalization. Articles by Hou (1961) on the vegetation regionalization concept and theory and Лю et  al. (1959) on the Chinese vegetation regionalization principle laid the theoretical foundation for China's research in geobotany and vegetation regionalization. Descriptions of and research on the Kunlun Mountains and North Xinjiang by Lee (1960, 1961), on the meadow and forest in western Sichuan by Chiang (1960), and on typical vegetation types in southern Guizhou by Hou (1961), had a strong impact in the fields of geobotany and vegetation regionalization.

In the area of plant systematics and taxonomy, published papers focused mainly on new knowledge of families and genera (Kuang 1960; Geng and Liu 1960; Tsoong 1961), and on new species (Keng and Liou 1960; Hsü 1966). Zeng Chengkui and his team published a series of work on classification of the algae system, and in doing so laid the foundation for China's development of phycology (Tseng and Chang 1953; Tseng and Chang 1954, 1955a, 1955b, 1958).

2.2 Papers from 1973 to 1988: Macroscopic observations and microscopic experiments

In 1973, when the Cultural Revolution (which formally ended in 1976) became less destructive, JIPB was re-established as a quarterly journal. In 1981, the journal ramped up publication efforts to become a bimonthly. During this time period, 78 issues in 16 volumes were published.

This was also a period of major development in the study of plant reproductive biology. JIPB published noteworthy studies on higher plant fertilization sexual cell fusion and recombination (Hu and Zhu 1979), the ultrastructure of the male gametophyte (Hu 1979), nutrition during the development of the nuclear and reproductive cell relationship (Tang 1973, 1979), cell degeneration in the ovule and substances migration (Zhang et  al. 1980, 1984, 1988), male sterility, apomixis and distant hybridization (Hu et  al. 1977; Tian and Yang 1983; Li and Yang 1986; Wei and Yang 1986). In addition, many important embryological results on endemic gymnosperms were published by Fu-Hsiung Wang's research team (Wang and Chen 1974; Chen and Wang 1979, 1980, 1982, 1985; Wang and Chen 1983; Chen et  al. 1984). These studies provided important evidence for subsequent research on embryology.

The field of structural botany saw rapid development in China during this period. Aside from several important monographs including Plant Microscopy Technique (Lee 1978), Cotton Morphology (Lee 1979), Anatomy of Seed Plants (Esau and Lee 1982), and Plant Anatomy (Li and Zhang 1983), studies on cell and tissue cultures (Lee and Kwei 1973; Chu et  al. 1973, 1976, 1978, 1979; Sun et  al. 1973, 1978, 1983; Zhang et  al. 1978; Yang and Zhou 1979; Xu and Huang 1984), and the structure of reproductive organs (Yang 1978, 1982; Zhou et  al. 1987; Tang 1988) and vegetative organs (Jian et  al. 1982; Jiang and Qi 1984; Tan et  al. 1985; Hu et  al. 1985), yielded important insights into the development mechanism of plants. During this time period, the field of comparative anatomy also developed rapidly. Aside from observations on the anatomic structures of native plants (Li and Li 1981; Zhang 1984; Li and Zhang 1985; Chen et  al. 1986, 1987; Hong et  al. 1987; Wu and Li 1988), the taxonomic positions of these plants and their relationships with the environment were also the focus of research (Wang 1980; Li and Li 1981; Li and Zhang 1985).

With the development of microscopic technology, the structure and ultrastructure of plant organs, tissues, cells, and even the various components of cells were able to be studied in more detail. Meanwhile, plant growth mechanisms at the various stages of development were analyzed through a combination of biophysical and biochemical techniques. With these technological advancements, JIPB was able to publish a series of very important studies on cells (Hao et  al. 1978; Chen et  al. 1979, 1981, 1982), tissue cultures (Xu and Huang 1984; Ye 1984), the cell wall crossing mechanism and material transport (Zheng et  al. 1973, 1980, 1985), the pathway and mechanism of pollen development (Yang and Zhou 1979), and in vitro fertilization (Zhu 1979). In addition, other important results were also achieved in the study of photosynthesis (Kuang et  al. 1979; Zhang et  al. 1979; Zuo et  al. 1979; Li et  al. 1980; Chu and Mao 1986; Sun and Yu 1986), plant respiration and metabolism (Tang 1979; Zou et  al. 1979), and postharvest physiology (Li et  al. 1973a, 1973b). With the improvement of analysis technology, the study of phytochemistry (Zhou et  al. 1980; Chen et  al. 1986) and specifically medicinal plant biologically-active substances (Hsiao et  al. 1973a, 1973b; Shan 1973; Sun et  al. 1978; Liu et  al. 1978, 1985) made considerable strides, laying the foundation for the development of the phytochemistry field in China. At the time, the adjunction of ethylene, gibberellin, cytokinin and other types of auxin and hormones was still an important method for studying the mechanism of plant developmental stages (Shen 1980; Tao et  al. 1980; Tang et  al. 1980; Tong et  al. 1980; Pan et  al. 1988).

In the field of plant ecology, papers at the time focused mainly on vegetation and vegetation regionalization (Zhang 1974; Zhang 1973, 1978; Li et  al. 1981, 1985; Zheng and Chen 1981; Lin 1983; Wang and Hu 1984; Zheng 1985). Many studies on vegetation and community succession done through the application of various new technologies and new methods were published in JIPB, such as the method of mathematical statistics, and the mathematical modeling (Chen et  al. 1981; Zhao et  al. 1982; Li et  al. 1984; Chen et  al. 1986; Zu and Zhu 1987) of experimental ecology (Feng et  al. 1982), of physiological ecology (Du and Yang 1983; Jiang et  al. 1984), and of remote sensing (Yang 1983). Through these landmark studies, plant ecology research in China was able to expand.

In the area of plant systematics and taxonomy, only two new species and genera were reported (Tsiang 1973a, 1973b), as well as new observations on some previously known species (Hong 1986; Wang 1987). Papers during this period mainly focused on paleobotany, including descriptions of fossil flora in different geologic periods (Xu 1973; Xu et  al. 1973; Tuan et  al. 1977; Hu 1980; Tao 1981; Chen and Yang 1982; Chen et  al. 1983), palynological assemblage (Tao and Kong 1973; Xu et  al. 1974; Sun et  al. 1979, 1981; Wang et  al. 1979; Jiang and Yang 1980; Kong and Du 1980; Li and Liang 1981), and new species (Xu et  al. 1974, 1975; Chen et  al. 1979a, 1979b, 1979c; Zhu and Du 1981; Zhu and Sun 1981; Du 1982; Du 1983; Geng 1983; Huang 1983; Hu 1983; Zheng 1983; Hao 1988). Some of these papers also provided insight into species’ systematic evolution, paleogeography, paleoclimate, and stratigraphic significance.

2.3 Papers from 1989 to 2001: Technology development at different scales

In 1989, JIPB began publishing monthly. 2,481 articles in 158 issues and 13 volumes were published from 1989 to 2001. These articles have been analyzed using the bibliometrics method based on the CNKI database in China (

Keyword frequency directly represents the main focus of literature, and is reflective of important questions in a given research field (Li et  al. 2012). Thus, the keyword frequency for articles published in JIPB from 1989 to 2001 was retrieved in order to better understand the journal's development. The top 50 keywords are listed in Table 1, which are defined as high- frequency keywords for articles published in the journal from 1989 to 2001.

Table 1.  High-frequency keywords for articles published in ABS/JIPB from 1989 to 2001
1rice24527 Eucommia ulmoides 18
3corn10629polymerase chain reaction17
4ultra-structure9130tissue culture17
5plant regeneration7931tomato17
6protoplast7732transgenic plants16
8soybean6734gene cloning16
10pollen5136global change14
11photosystem4837restriction fragment length polymorphism13
12ABA4138superoxide dismutase13
13broad bean3439distant hybridization12
15gene expression2941meiosis11
17light inhibition2743auxin10
18active oxygen2644 Arabidopsis 10
19barley2645molecular marker10
20microtubules2446photoperiod sensitive genic male sterile rice10
22genetic diversity2348embryo development9
23male sterility2249somatic embryogenesis8
24cotton2250transgenic rice7
25somatic embryogenesis2251self-incompatibility6
26kidney bean19   

The first category of these high-frequency keywords revealed a connection to plant materials, and showed that the frequently-used research materials were rice, wheat, corn, tobacco, soybean, broad bean, cucumber, barley, cotton, and Arabidopsis, among others. Research on rice focused on male sterility, photoperiod, phytochrome, molecular markers, genetic mapping, microspores, microtubules, chloroplasts, specific proteins, and synergistic effects (Table 1).

The second category of high-frequency keywords was found to be associated with research methods. According to analysis, the main methods used were RAPD, polymerase chain reaction, tissue cultures, restriction fragment length polymorphism, molecular markers, confocal microscopy, and more (Table  1).

The third category of high-frequency keywords reflects the fields and direction of research carried out during the given period. Research related to stress focused on low temperatures (Zeng et  al. 1997), salt (Gong et  al. 1989), water (Jiang 1999), osmosis (Jiang et  al. 1994), and more. Research on phytohormones focused on auxin, cytokinin abscisic acid (ABA) and ethylene, among others.

2.4 Papers from 2002 to 2012: Molecular mechanism of plant growth and development

The years from 2002 to 2012 have been witness to many big changes in JIPB. Since 2002, the journal has been published exclusively in English in order to reach a wider breadth of scientists. In 2005, the journal's name was changed from Acta Botanica Sinica to Journal of Integrative Plant Biology, and the journal began to be published by Wiley-Blackwell. In 2009, JIPB introduced six scientific themes. And from 2002 to now (June 2012 at the time of this writing), JIPB has published 1,764 articles, 127 issues, and 11 volumes. During this period, the journal has focused exclusively on top scientific topics in the field of plant sciences from researchers around the world, including biochemistry, molecular biology technique as applied to plant growth, and development mechanism research.

In this section, a bibliometric methodology was used to quantitatively represent the academic development of the journal from 2002 to 2012. The metadata (including tiles, authorship, abstracts, keywords, keywords plus, and citations as well as cited references) of papers in JIPB (2006–2012) and ABS (2002–2005) were collected from the Thomson Reuters Web of Science (WOS) database. Statistic analyses were carried out on the WOS website, and data-mining as well as visualization were conducted using CiteSpaceII software, a Java application which supports visual exploration with knowledge discovery based on bibliographic information.

The terms parsed from articles can be seen as representing key focal points of scientific research published in JIPB. CiteSpace parsed 1,276 terms from the analysis of 1,764 articles, including single words and phrases of up to four words. Figure 1 provides an overview of these terms. In this visualization, the node size represents the overall frequency of occurrence of terms, and the colored surroundings of the nodes represent yearly time-slices.


Figure 1. Cluster view based on term frequency analysis.

Download figure to PowerPoint

Terms were classified into three categories: materials, methods, and areas of research. Arabidopsis thaliana, the most widely-used species for the study of plant sciences, occupied the first place position. Rice (Oryza sativa), wheat (Triticum aestivum), maize (Zea mays), and tomato (Arachis hypogea), important staple foods for people worldwide, were ranked second, third, and fourth, respectively.

As for research areas, the terms “stress,”“gene,” and “photosynthesis” held the top three ranking positions, suggesting that from 2002 to 2012 JIPB's papers focused primarily on the molecular basis of plant growth and stress responses. How amino acids and plant hormones like auxin, cytokinin, ABA, and jasmonic acid (JA) are involved in regulating plant growth and development under various stress conditions, and how they operate during the process of plant tolerance, have been areas of keen interest to JIPB authors over this ten-year period. Of the 1,731 papers we retrieved from the WOS, 560 (more than one third) focused on or involved the study of “stress” and/or “plant defense,” as well as “tolerance”. Scholars from 39 different nations published their studies and reviews on these areas in JIPB over this period. The most influential article in terms of number of times cited came from a well-known and prestigious plant scientist Professor Jiankang Zhu. Professor Zhu and his colleagues comprehensively reviewed how ABA regulates plant response to abiotic stress (Chinnusamy et  al. 2008), an article which has been widely cited by many top plant science journals, including Plant Physiology (Li et  al. 2012b), Plant Journal (Ding et  al. 2011), and Plant Molecular Biology (Gao et  al. 2011).

JIPB is home to a large amount of research represented by the terms “gene” and “gene-expression”. The high level of activity in these important research areas has helped impart the journal with profound significance. For instance, the review articles “WRKY gene family in rice” (Ross et  al. 2007), “Histone deacetylase genes in Arabidopsis development” (Rohila and Yang 2007), and “Gene networks in plant ozone stress response and tolerance” (Ow 2011) were all highly cited. Photosynthesis, a fundamental biological activity of plants, has long been the focus of studies due to its unparalleled importance to mankind (Lu 2010). JIPB leverages key subject areas such as this one to enhance its significance. In 2010, JIPB published a special issue covering the breadth and depth of various aspects of photosynthesis (Crabbe 2010; Ifuku et  al. 2010; Jiang et  al. 2010; Lu 2010; Sharkey and Zhang 2010; Xu and Sullivan 2010). In addition, JIPB has also paid particular attention to the research fields of genomics (Olsen et  al. 2007; Guo et  al. 2008; Hu et  al. 2009b; Vermerris 2011) and proteomics (Guo et  al. 2002; Xu et  al. 2007; Guo et  al. 2008; Chua et  al. 2010; Han et  al. 2010). It is important to note that far more scientific topics have appeared in JIPB than those stated above, which are used as key examples.

2.5 Analysis of JIPB's most-cited papers

JIPB articles were ranked according to their frequencies of citation. It was found that 1,165 articles were cited more than 20 times. We listed the top 50 most-cited papers in Table  2, in order to acknowledge the authors for their contribution to the development of the academic status and IF of the journal.

Table 2.  Top 50 most cited papers published in ABS/JIPB from 1952 to June 2012, indexed by SCI and CNKI
No.TitleAuthorsPublication year (Number)Total citations
1Superoxide Dismutase Activity and Lipid Peroxidation in Relation to Senescence of Rice LeavesLin Zhi-Fang, Li Shung-Shun, Lin Gui-Zhu, Sun Gu-Chou and Guo Juen-Yan1984 (06)890
2Problems in the Use of RAPD to the Study of Genetic Diversity and SystematicsWang Xiao-Quan, Zou Yu-Ping, Zhang Da-Ming, Zhang Zhi-Xian and Hong De-Yuan1996 (12)786
3Assessment of Genetic Variation of Oryza granulata Detected by RAPDs and ISSRsQian Wei, Ge Song and Hong De-Yuan2000 (07)526
4Recent Advances on Endophyte ResearchZou Wen-Xin and Tan Ren-Xiang2001 (09)436
5Dynamic Forest Biomass Carbon Pools in China and Their SignificanceFang Jing-Yun and Chen An-Ping2001 (09)368
6Distribution of Simple Sequence Repeat and AFLP Markers in Molecular Linkage Map of RiceXiong Li-Zhong, Wang Shi-Ping, Liu Ke-De, Dai Xian-Kai, M.A. Saghai Maroof, Hu Jin-Guo and Zhang Qi-Fa1998 (07)337
7Isolation and Characterization of Total DNA from Several Endangered Species and Their AlliesZou Yu-Ping, Wang Xiao-Quan, Lei Yi-Ding, Pei Yan-Long and Zhang Zhi-Xian1994 (07)331
8Active Oxygen Damage Effect of Chlorophyll Degradation in Rice Seedlings Under Osmotic StressJiang Ming-Yi, Yang Wen-Ying, Xu Jiang and Chen Qiao-Yun1994 (04)310
9Clonal Growth in Plants in Relation to Resource Heterogeneity: Foraging BehaviorDong Ming1996 (10)304
10Research Advances on the Mechanisms of Heavy Metal Tolerance in PlantsZhang Yu-Xiu, Chai Tuan-Yao and Gérard Burkard1999 (05)302
11Transformation of Wheat with a Gene Encoding for the Betaine Aldehyde Dehydrogenase (BADH)Guo Bei-Hai, Zhang Yan-Min, Li Hong-Jie, Du Li-Qun, Li Yin-Xin, Zhang Jin-Song, Chen Shou-Yi and Zhu Zhi-Qing2000 (03)298
12Peroxidation Damage of Oxygen Free Radicals Induced by Cadmium to PlantHuang Yu Shan, Luo Guang-Hua and Kwan K M Frances1997 (06)286
13Cytogenetical Toxical Effects of Heavy Metals on Vicia faba and Inquires into the Vicia Micro nucleusDuan Chang-Qun and Wang Huan-Xiao1995 (01)286
14Correlation Between Lipid Preoxidation Damage and Ultrastructural Changes of Mesophyll Cells in Barley and Wheat Seedlings During Salt StressGong Ming, Ding Nian-Cheng, He Zi-Yi and Liu You-Liang1989 (11)274
15Generation of Activated Oxygen and Change of Cell Defense Enzyme Activity in Leaves of Korean Pine Seedling Under Low TemperatureLi Jing, Yan Xiu-Feng and Zu Yuan-Gang2000 (02)271
16Effects of Salt and Water Stresses on Osmotic Adjustment of Suaeda salsa SeedlingsZhang Hai-Yan and Zhao Ke-Fu1998 (01)257
17Changes of Ability of Scavenging Active Oxygen During Natural Senescence of Wheat Flag leavesShen Wen-Biao, Ye Mao-Bing, Xu Lang-Lai and Zhang Rong-Xian1997 (07)251
18Genetic Mode of Exogenes in Transgenic PlantsHua Zhi-Hua and Huang Da-Nian1999 (01)239
19Construction of RAPDs Molecular Genetic Map of Chinese CabbageZhang Lu-Gang, Wang Ming, Chen Hang and Liu Ling2000 (05)212
20Transformation of Brassica napus Using Agrobacterium tumefaciens and Regeneration of Transgenic PlantsCheng Zhen-Dong, Wei Zhi-Ming and Xu Zhi-Hong1994 (09)197
21Stress Resistance of Plants Induced via the Salicylic Acid-Mediated Signal Transduction PathwayLin Zhong-Ping and Hu Yuan-Lei1997 (02)195
22Generation of Hydroxyl Radicals and Its Relation to Cellular Oxidative Damage in Plants Subjected to Water StressJiang Ming-Yi1999 (03)192
23Construction of Rice RAPD Molecular Linkage MapChen Hong, Zhu Li-Huang, Xu Ji-Chen and Chen Mei-Ling1995 (09)184
24Construction of a Trehalose-6-phosphate Synthase Gene Driven by Drought-responsive Promoter and Expression of Drought-resistance in Transgenic TobaccoZhao Hui-Wu, Chen Yang-Jian, Hu Yuan-Lei, Gao Yin and Lin Zhong-Ping2000 (06)184
25Application of RAPD Analysis in the Study on the Origin of Chinese Cultivated ChrysanthemumDai Si-Lan, Chen Jun-Yu and Li Wen-Bin1998 (11)180
26The Changes of Oxidation and Peroxidation in Postharvest Litchi FruitLin Zhi-Fang, Li Shuang-Shun, Zhang Dong-Lin, Liu Shu-Xian, Li Yue-Biao, Lin Gui-Zhu and Chen Mian-Da1988 (04)178
27Genetic Transformation of Watercress with a Gene Encoding for Betaine-aldehyde Dehydrogenase (BADH)Li Yin-Xin, Chang Feng-Qi, Du Li-Qun, Guo Bei-Hai, Li Hong-Jie, Zhang Jin-Song, Chen Shou-Yi and Zhu Zhi-Qing2000 (05)174
28Research on Regulation of NDVI Change of Chinese Primary Vegetation Types Based on NOAA/AVHRR DataLi Xiao-Bing and Shi Pei-Jun1999 (03)174
29Cloning of the LFY cDNA from Arabidopsis thaliana and Its Transformation to Chrysanthemum morifoliumShao Han-Shuang, Li Ji-Hong, Zheng Xue-Qin and Chen Shou-Cai1999 (03)173
30Effects of Molybdenum and Boron on Membrane Lipid Peroxidation and Endogenous Protective Systems of Soybean LeavesLiu Peng and Yang Yu-Ai2000 (05)172
31The Changes of Pigments, Phenolics Contents and Activities of Polyphenol Oxidase and Phenylalanine Ammonia-Lyase in Pericarp of Postharvest Litchi FriutLin Zhi-Fang. Li Shuang-Shun, Chang Dong-Lin, Lin Gui-Zhu, Li Yue-Biao, Liu Shu-Xian and Chen Mian-Da1988 (01)172
32Active Oxygen Species in Plant Disease ResistanceGuo Ze-Jian and Li De-Bao2000 (09)169
33An Analysis of Age Structure and the Strategy for Asexual Propagation of Aneurolepidium chinense PopulationYang Yun-fei, Liu Geng-Chang and Zhang Bao-Tian1995 (02)168
34Study on the CO2 release Rate of Soil Respiration and Litter Decomposition in Stipa grandis Steppe in Xilin River Basin, Inner MongoliaChen Si-Qing, Cui Xiao-Yong, Zhou Guang-Sheng and Li Ling-Hao1999 (06)166
35Anatomical Observation of Assimilating Branches of Nine Xerophytes in GansuLee Cheng-Lee and Li Rong-Ao1981 (03)165
36Species- and Habitat-variability of Photosynthesis, Transpiration and Water Use Efficiency of Different Plant Species in Maowusu Sand AreaJiang Gao-Ming and He Wei-Ming1999 (10)164
37Ultrastructural Study of Leaf Cells Damaged from Hg2+ and Cd2+ Pollution in Hydrilla verticillataShi Guo-Xin, Du Kai-He, Xie Kai-Bin, Ding Xiao-Yu, Chang Fu-Chen and Chen Guo-Xiang2000 (04)160
38Study on the Activities of Stage Specific Enzyme During Softening of KiwifruitWang Gui-Xi, Hang Ya-Shan and Yu Mu-Liang1995 (03)157
39Plant Development and Reproduction: Advances and ProspectivesXu Zhi-Hong1999 (09)157
40Comparison of the Changes of Membrane Protective System in Rice Seedlings During Enhancement of Chilling Resistance by Different Stress PretreatmentZeng Shao-Xi, Wang Yi-Rou and Li Mei-Ru1997 (04)156
41A Preliminary Study of Xeromorphism of Some Important Xerophytes Growing in TUNGELI DesertZhao Cui-Xian and Huang Zi-Shen1981 (04)156
42Influence of Different Stocking Rates on Plant Diversity of Artemisia frigida Community in Inner Mongolia SteppeWang Shi-Ping, Li Yong-Hong, Wang Yan-Fen and Chen Zuo-Zhong2001 (01)154
43Effect of Cold Hardening on SOD and Glutathion Reductase Activities and on the Contents of the Reduced Form of Glutathion and Ascorbic Acid in Rice and Cucumber SeedlingsWang Yi-Rou, Zeng Shao-Xi and Liu Hong-Xian1995 (10)154
44Effects of Salinity on the Contents of Osmotica of Monocotyledenous Halophytes and Their Contribution to Osmotic AdjustmentZhao Ke-Fu and Li Jun1999 (12)154
45Transformation of Populus tomentosa with Insecticidal Cowpea Proteinase Inhibitor GeneHao Gui-Xia, Zhu Zhen and Zhu Zhi-Ti1999 (12)153
46Genetic Variation of Main Parents of Hybrid Rice in China Was Revealed with Simple Sequence Repeat MarkersLi Yun-Hai, Xiao Han, Zhang Chun-Qing, Hu Guo-Cheng, Yu Yong-Hong, Jia Ji-Zeng and Sun Zong-Xiu1999 (10)151
47Recent Advances in Study of Lignin Biosynthesis and ManipulationWei Jian-Hua and Song Yan-Ru2001 (08)145
48A New Method for Preparing Mitotic Chromosomes From PlantChen Rui-Yang, Song Wen-Qin and Li Xiu-Lan1979 (03)145
49The Positive Correlations Between the Activity of Superoxide Dismutase and Dehydration Tolerance in Wheat SeedlingsWu Bao-Gan and Glenn W. Todd1979 (03)145
50Gene Flow Between Transgenic Crops and Their Wild Related SpeciesWei Wei, Qian Ying-Qian and Ma Ke-Ping1999 (04)143

Articles “Problems in the Use of RAPD to the Study of Genetic Diversity and Systematics” written by Wang et  al. (1996), and “Assessment of Genetic Variation of Oryza granulata Detected by RAPDs and ISSRs” written by Qian et  al. (2000), were cited 786 times and 526 times, respectively (Table 2). According to the feedback from the authors, these two articles were representative papers for major projects of the “Eighth Five-Year Plan” (Studies on Conservation Biology of Main Endangered Plants in China) (Grant No. 39391500, 1993–1997) supported by the National Natural Science Foundation of China, and of “Ninth Five-Year Plan” (Evolutionary Biology Research on Important Endangered Plants) (Grant No. KZ951-B1-10, 1997–2000), supported by the CAS. These two papers played an important role in enhancing the research on genetic diversity, biodiversity, protection and sustainable use of plants in China. In addition, the article “Active oxygen damage effect of chlorophyll degradation in rice seedlings under osmotic stress,” which was written by Jiang (1994) and is ranked 8th on our list in Table 2, won the first place award in the Natural Science Research Paper of Hunan Province in 1996.

3 Editing, Publishing and Circulation

  1. Top of page
  2. Abstract
  3. 1 JIPB Editors-in-Chief
  4. 2 JIPB's Academic Development
  5. 3 Editing, Publishing and Circulation
  6. 4 Event Timeline
  7. Acknowledgements
  8. References

3.1 Editing and review

Starting in 2008, JIPB has built an international editorial board of renowned scientists. Currently, our editorial board has 77 members, with 48 foreign editors (62%) from 14 countries including the United States, Britain, Germany, Holland, and more. JIPB's current Editor-in-Chief is Professor Chun-Ming Liu from the Institute of Botany, CAS, who is an expert in plant embryo and endosperm development, and in cell-cell communications. Our seven Associate Editors are Professor William J. Lucas, a professor from the University of California at Davis, USA, Professor Ian Baldwin from the Max-Planck Institute of Chemical Ecology, Germany, Professor Mark Stitt from the Max-Planck Institute of Molecular Plant Physiology, Germany, Professor Chris Hawes from Oxford Brookes University, UK, Professor Leon V. Kochian from Cornell University, USA, Professor Li-Jia Qu from Peking University, China, and Professor Wei-Cai Yang from the Institute of Genetics and Developmental Biology, CAS, China. They together build a core steering committee for the journal, and make all strategic decisions.

A global editorial board meeting is held every two years (three such meetings have been held so far), and domestic editorial board meetings are also held yearly to discuss strategies for future development of JIPB. The editorial board plays an important role in the international development of JIPB through its contributions, review articles, and invitation of manuscripts. These talented and forward-looking individuals continuously put into motion new measures to promote the rapid development of JIPB.

Currently, the editorial office is composed of 4 full-time staff: two with MSc degrees, and two with PhD degrees. Since 2008, JIPB has begun hiring foreign staff for the position of Communications Manager. To date, this position has been held by Johan Olausson from Sweden (for two and a half years), Sandi Chen from the USA (one year), and now Joshua Fenn, who graduated from Cornell University, USA with a bachelor's degree, and the University of Hong Kong with a master's degree. JIPB's internationalization has benefited greatly from these foreign staff, as they play an important role in polishing English, creating effective marketing campaigns for external distribution, and communicating between editors, authors, reviewers and the editorial office. Two members of the editorial staff have had international training as academic visitors in the UK and Japan, and this experience has contributed to the journal's development after they returned to China.

On top of these efforts toward internationalization, strides have also been made in terms of ensuring a smooth editorial process. A series of rules and regulations has been issued in the editorial office, including editing duties, manuscript management principles, a regular meeting system, and more. The editorial office also ensures that all articles published in JIPB conform to a standard format and layout.

In 2003, the “Zhulong” manuscript processing system was created, which allows the entire editorial process to be carried out online. This system completely revolutionized the way manuscripts were handled by JIPB, and made the entire process easier. In 2007, the Bench>Press system, a highly-efficient manuscript processing system created by Stanford University and used by world-class journals including The Plant Cell and Plant Physiology, was put into use at JIPB. This system makes communication between the editorial office, authors, reviewers, and editors effortless and barrier-free. JIPB also offers PubExpress, an extremely rapid submission option, for manuscripts of exceptional quality.

Manuscript quality is ensured through JIPB's rigorous management process. Starting in 2007, a new system for managing the editing of manuscripts was put into place. An Associate Editor is responsible for assigning a manuscript to a co-editor, and that co-editor is responsible for specifying reviewers. At the end of the process, the Editor-in-Chief and the Associate Editors are responsible for doing a final check on the quality of the manuscripts. All editors are responsible for the quality of science and language in each contributed manuscript. Crosscheck software was also integrated in the Bench>Press system in order to prevent duplicate publications, plagiarism, and academic misconduct, thus ensuring the scientific quality of JIPB's publications.

In addition, JIPB has continued to strengthen its reviewer database. At present, more than 2,000 national and international experts are included in the database, and the percentage of international reviewers is 45%.

3.2 The website

In 2003, JIPB's website, in both Chinese and English-language versions, was launched at In 2007, a new website which incorporates the Bench>Press manuscript processing system was established at In addition to acting as a means to submit manuscripts, the website also provides readers around the globe access to all previously-published JIPB articles dating back to 1952. Among these articles, all those published from 1952 to 2004 have been designated Free Access (FA), and after 2005, more than half of the articles published (the first issue of each year, all articles in the first month after publication, all special issues, two articles recommended by the EIC in each issue, and commentaries) have become FA. In addition, a corresponding JIPB homepage has been created on Wiley-Blackwell's website at (ISSN) 1744-7909. Both PDF and HTML formats of JIPB articles are available for download, and the CrossRef service is employed. Accepted articles can be accessed instantly online, and “Early View” articles can be published online ahead of the print version. In the electronic version of the journal, chart and reference dynamic linking is implemented, and slide files for charts are available for download. JIPB's Virtual Special Issues are created based on the six major criteria for all published articles. Most-cited articles and most-accessed articles are provided and updated. The pages of editors are linked. The columns for Accepted Articles, Early View, and Special Issue are now clearly divided. A photo gallery page is included, and JIPB activities have been recorded and publicized.

3.3 International cooperation and publishing

In 2005, JIPB began co-publishing with the Blackwell Publishing Group. The English writing for each manuscript is polished by native English speakers to ensure clarity of language for all final published JIPB articles. JIPB's cooperation with Wiley helped eliminate any instances of “Chinglish,” greatly improved the journal's international circulation, and enhanced its international influence. Full-text downloads saw a significant and rapid rise, reaching 178,235 in 2011. JIPB subscribers are now from more than 40 different countries and regions, and circulation has reached over 14,200 in 2011.

JIPB's cover design, the arrangement of its content, and the quality of its editing and proofreading is rapidly nearing those of first-class international journals. The electronic version of the journal and the print edition have been continuously worked over and improved; the new electronic version is now colorful, and references and charts make use of dynamic linking. A comprehensive proofreading system for manuscripts has been strictly implemented, bringing the error rate down to a very low level. As evidence of these efforts, JIPB won the “Outstanding Editing” title in a quality evaluation organized by CAS in 2010.

In addition, PubExpress, JIPB's fast-track submission and editing process, has been launched for manuscripts of exceptionally high quality. Our publication cycle has been considerably shortened by our continued optimization of manuscript handling. In 2011, the publication cycle of the printed version of the journal was shortened to 3.6 months, and online publication period was only 56 days from submission. The publication cycle progress of the printed version is shown in Figure 2.


Figure 2. ABS/JIPB publication cycle for the printed version. Days shown are from manuscript first-received to officially printed.

Download figure to PowerPoint

4 Event Timeline

  1. Top of page
  2. Abstract
  3. 1 JIPB Editors-in-Chief
  4. 2 JIPB's Academic Development
  5. 3 Editing, Publishing and Circulation
  6. 4 Event Timeline
  7. Acknowledgements
  8. References
1952Founded as Acta Botanica Sinica, a quarterly journal.
1967–1972Stopped during the “Cultural Revolution” for 6 years.
1973Journal resumed work.
1981Changed to a bimonthly journal.
1989Changed to a monthly journal.
1992Won First Place Prize as an Excellent Academic Journal.
1996Awarded First Place Prize as an Elite Journal by theCAS.
1997Won Second Place Prize, National Excellent Scienceand Technology Journal.
1998Changed to become an international journal, indexedby SCI.
1999Won the 1st National Journal Prize of China.
2000Won the Special Award of “Elite Journal 2000” by the CAS.
2001Received the Special Fund for Key Academic Journalsfrom the National Natural Science Foundation ofChina (grant received from 2001 to 2012).
2002Began publishing in English (with Chinese abstracts).
 Won the 2nd National Journal Prize of China.
 Won the One Hundred Outstanding Chinese AcademicPeriodicals Award (won from 2002 to 2006).
2003Changed to English only, with all articles publishedonline.
2005Changed name to JIPB, began publishing internationallywith Wiley-Blackwell.
 Won the 3rd National Journal Prize of China.
 Received the Science Publication Fund, awarded by theCAS (grant received in 2005, 2007, 2009–2012).
2006Named as one of the Top 7 Chinese Science andTechnology Journals from 2006–2011 by theChina Association for Science and Technology.
2007Changed format and website, under the managementof Co-Editors.
20091st International Symposium on Integrative Plant Biologyin Yantai.
 Held workshop on Scientific Publishing in Yantai.
 Won the Award of Most Influential Periodical in the Past60 years in China.
2010Held workshop on Scientific Publishing in Beijing.
20112nd International Symposium on Integrative PlantBiology in Lanzhou.
 Held workshop on Scientific Publishing in Lanzhou.
2012No page charge from February 1st, 2012.
 Held workshop on Scientific Publishing in Shanghai.
 Won the Second Place Award as an ExcellentInternational Science and Technology Journal.


  1. Top of page
  2. Abstract
  3. 1 JIPB Editors-in-Chief
  4. 2 JIPB's Academic Development
  5. 3 Editing, Publishing and Circulation
  6. 4 Event Timeline
  7. Acknowledgements
  8. References

The authors would like to extend their gratitude to Dr. Lu-Sheng Fan for selecting informative keywords for the publications.


  1. Top of page
  2. Abstract
  3. 1 JIPB Editors-in-Chief
  4. 2 JIPB's Academic Development
  5. 3 Editing, Publishing and Circulation
  6. 4 Event Timeline
  7. Acknowledgements
  8. References
  • Aghaei K, Ehsanpour AA, Komatsu S (2009) Potato responds to salt stress by increased activity of antioxidant enzymes. J. Integr. Plant Biol. 51, 10951103.
  • Ali F, Yan J (2012) Disease resistance in maize and the role of molecular breeding in defending against global threat. J. Integr. Plant Biol. 54, 134151.
  • Amiri RM, Yur’eva NO, Shimshilashvili KR, Goldenkova-Pavlova IV, Pchelkin VP, Kuznitsova EI, Tsydendambaev VD, Trunova TI, Los DA, Jouzani GS, Nosov AM (2010) Expression of acyl-lipid delta 12-desaturase gene in prokaryotic and eukaryotic cells and its effect on cold stress tolerance of potato. J. Integr. Plant Biol. 52, 289297.
  • Bai X, Wu B, Xing Y (2012) Yield-related qtls and their applications in rice genetic improvement. J. Integr. Plant Biol. 54, 300311.
  • Bai XF, Zhu JJ, Zhang P, Wang YH, Yang LQ, Zhang L (2007) Na+ and water uptake in relation to the radial reflection coefficient of root in arrowleaf saltbush under salt stress. J. Integr. Plant Biol. 49, 13341340.
  • Bu QY, Wu L, Yang SH, Wan JM (2006) Cloning of a potato proteinase inhibitor gene PINII-2X from diploid potato (Solanum phurejia L.) and transgenic investigation of its potential to confer insect resistance in rice. J. Integr. Plant Biol . 48, 732739.
  • Cao X, Zhou J, Gong X, Zhao G, Jia J, Qi X (2012) Identification and validation of a major quantitative trait locus for slow-rusting resistance to stripe rust in wheat. J. Integr. Plant Biol. 54, 330344.
  • Chang HS (1973) On the eco-geographical characters and the problems of classification of the wild fruit-tree forest in the Ili valley of Sinkiang. Acta Bot. Sin. 16, 239253.
  • Chang HT (1974) The vegetation of the Hsi-Sha islands. Acta Bot. Sin. 16, 183192.
  • Chang T, Zhai H, Chen S, Song G, Xu H, Wei X, Zhu Z (2006a) Cloning and functional analysis of the bifunctional agglutinin/trypsin inhibitor from helianthus tuberosus l. J. Integr. Plant Biol. 48, 971982.
  • Chang Y, Chen SL, Yin WL, Wang RG, Liu YF, Shi Y, Shen YY, Li Y, Jiang J, Liu Y (2006b) Growth, gas exchange, abscisic acid, and calmodulin response to salt stress in three poplars. J. Integr. Plant Biol. 48, 286293.
  • Chao SW, Tsui C (1963) The effect of microelements on the growth and respiration of rice with special reference to the respiratory inhibitors. Acta Bot. Sin. 11, 6775.
  • Chen F, Yang GX (1982) Lower Cretaceous plants from Pingquan, Hebei Province and Beijing, China. Acta Bot. Sin. 24, 575580.
  • Chen HX, An SZ, Li WJ, Gao HY, Zou Q (2004) Enhancement of the mehler-peroxidase reaction in salt-stressed rumex k-1 leaves. Acta Bot. Sin. 46, 811818.
  • Chen LZ, Li DH, Song LR, Hu CX, Wang GH, Liu YD (2006) Effects of salt stress on carbohydrate metabolism in desert soil alga microcoleus vaginatus gom. J. Integr. Plant Biol. 48, 914919.
  • Chen LZ, Ren JK, Chen QL, Hu YH, Ban XC, Miao YG (1986) Studies on the biomass of Robinia pseudoaeacia plantation. Acta Bot. Sin. 28, 201208.
  • Chen M, Tang YL, Zhang JM, Yang MF, Xu YN (2010) RNA interference-based suppression of phosphoenolpyruvate carboxylase results in susceptibility of rapeseed to osmotic stress. J. Integr. Plant Biol. 52, 585592.
  • Chen MH, Kong ZC, Chen Y (1983) On the discovery of Palaeogene flora from the Western Sichuan Plateau and its significance in phytogeography. Acta Bot. Sin. 25, 482491.
  • Chen QC, Zhao SL, Yang FX (1981) Mathematical models of retrogression of populations under grazing condition in the Stipa steppe. Acta Bot. Sin. 23, 323328.
  • Chen RY, Song WQ, An ZP, Li XL (1982) Studies on cotton (Gossypium hirsutum) karyotype. Acta Bot. Sin. 24, 9497.
  • Chen RY, Song WQ, Chen X, Li DC, Xu YF, Fan HP, Zhou XC (1979) The research of giemsa C-Banding technigue used in plant chromosome banding pattern. Acta Bot. Sin. 21, 1118.
  • Chen RY, Song WQ, Li XL (1981) Studies on cultivate barley (Hordeum vulgare) chromosome banding pattern. Acta Bot. Sin. 23, 162165.
  • Chen SY, Li SH, Hao XJ (1986a) The diterpenoid alkaloids of Aconitum nagarurn var. Lasiandrurn W. T. Wang and its chemotaxonomic significance. Acta Bot. Sin. 28, 8690.
  • Chen TK, Wang FH (1979) The gametophytes and fertilization in Pseudotaxus. Acta Bot. Sin. 22, 1929.
  • Chen TK, Wang FH (1980) Development of gametophytes in Fokienia Cupressaceae. Acta Bot. Sin. 22, 610.
  • Chen TK, Wang FH (1982) Fertilization in Pinus bungeana. Acta Bot. Sin. 24, 1016.
  • Chen XY, Ding X, Xu S, Wang R, Xuan W, Cao ZY, Chen J, Wu HH, Ye MB, Shen WB (2009) Endogenous hydrogen peroxide plays a positive role in the upregulation of heme oxygenase and acclimation to oxidative stress in wheat seedling leaves. J. Integr. Plant Biol. 51, 951960.
  • Chen Y, Duan SY, Zhang YC (1979a) New species of the Late Triassic plants from Yanbian, Sichuan, I. Acta Bot. Sin. 21, 5763.
  • Chen Y, Duan SY, Zhang YC (1979b) New species of the Late Triassic plants from Yanbian, Szechuan II. Acta Bot. Sin. 21, 186191.
  • Chen Y, Duan SY, Zhang YC (1979c) New species of the Late Triassic plants from Yanbian Sichuan III. Acta Bot. Sin. 21, 269273.
  • Chen ZK, Wang FX (1985) The ovule structure and development of male and female gametophytes in Araentotaxus. Acta Bot. Sin. 27, 1925.
  • Chen ZK, Wang FX (Wang Fu-hsiung), Zhou F (1986b) The ultrastructural feature and distribution of microbodies in mature embryo cells of Pinus bungeana. Acta Bot. Sin. 28, 132136.
  • Chen ZK, Wang FX (Wang Fu-hsiung), Zhou F (1987) Investigation on the ultrastructure of the tapetum in Pinus bungeana. Acta Bot. Sin. 29, 486491.
  • Chen ZK, Wang FX, Wang FH (1984) Early embryogeny and Iits starch distribution in Amentotaxus. Acta Bot. Sin. 26, 359364.
  • Cheng KC, Nie XW, Wang YX, Yang QL (1980) The relation between cytomixis and variation of chromosome numbers in pollen mother ceils of rye (Secale cereale L.). Acta Bot. Sin. 22, 216220.
  • Cheng KC, Nien HW, Yang CL, Wang IH (1973) On the probable mechanism of the intercellular migrating chromatin substance in the pollen mother cells. Acta Bot. Sin. 15, 5363.
  • Cheng KC, Wang YC (1956) The general occurence and regularity of the intercellular migrating Chromatin Substance in the pollen mother cells of certain angiosperms. Acta Bot. Sin. 5, 363376.
  • Cheng L, Zou Y, Ding S, Zhang J, Yu X, Cao J, Lu G (2009) Polyamine accumulation in transgenic tomato enhances the tolerance to high temperature stress. J. Integr. Plant Biol. 51, 489499.
  • Cheng ZJ, Mao BG, Gao SW, Zhang L, Wang JL, Lei CL, Zhang X, Wu FQ, Guo XP, Wan J (2011) Fine mapping of qpaa8, a gene controlling panicle apical development in rice. J. Integr. Plant Biol. 53, 710718.
  • Chiang S (1960) The meadows and forests of western mountains in Szechuan Province. Acta Bot. Sin. 9, 125136.
  • Chinnusamy V, Gong ZZ, Zhu JK (2008) Abscisic acid-mediated epigenetic processes in plant development and stress responses. J. Integr. Plant Biol. 50, 11871195.
  • Chu CC, Wang CC, Sun CS (1976) Development of the pollen embryo of rice and wheat on the medium devoid of hormones. Acta Bot. Sin. 18, 239244.
  • Chu ZC, Wang CC, Sun CS, Chien NF, Yin KC, Hsü C (1973) Investigations on the induction and morphogenesis of wheat (Triticum vulgare) pollen plants. Acta Bot. Sin. 15, 111.
  • Chu ZX, Mao DZ (1986) The regulation and distribution of LHC-I and LHCP2 between the photosystem I and photosystem II. Acta Bot. Sin. 28, 6978.
  • Chua LL, Shan XY, Wang JX, Peng W, Zhang GY, Xie DX (2010) Proteomics study of COI1--regulated proteins in Arabidopsis flower. J. Integr. Plant Biol. 52, 410419.
  • Crabbe MJC (2010) Computational biology approaches to plant metabolism and photosynthesis: Applications for corals in times of climate change and environmental stress. J. Integr. Plant Biol. 52, 698703.
  • Cui J, Fan S, Shao T, Huang Z, Zheng D, Tang D, Li M, Qian Q, Cheng Z (2007) Characterization and fine mapping of the ibf mutant in rice. J. Integr. Plant Biol. 49, 678685.
  • Dai LY, Liu XL, Xiao YH, Wang GL (2007) Recent advances in cloning and characterization of disease resistance genes in rice. J. Integr. Plant Biol. 49, 112119.
  • Ding Y, Avramova Z, Fromm M (2011) The Arabidopsis trithorax-like factor ATX1 functions in dehydration stress responses via ABA-dependent and ABA-independent pathways. Plant J . 66, 735744.
  • Du NZ (1982) Two fossil woods from Heilongjiang Sheng of China. Acta Bot. Sin. 24, 383387.
  • Du XM (1983) Sphenopteridium palmatum sp. nov. from Lower Shihhotze series of East Hills, Taiyuan. Acta Bot. Sin. 25, 492494.
  • Du ZC, Yang ZG (1983) Studies on characteristics of photosynthetic ecology in Leymus chinensis. Acta Bot. Sin. 25, 370379.
  • Duan HG, Yuan S, Liu WJ, Xi DH, Qing DH, Lin HH (2006) Effects of exogenous spermidine on photosystem ii of wheat seedlings under water stress. J. Integr. Plant Biol. 48, 920927.
  • Esau K, Lee CL (1982) Anatomy of Seed Plants . Shanghai Scientific & Technical Publishers, Shanghai .
  • Feng YZ, Wang HH, Zhang JH, Zhang KY, Ma WJ, Long YM (1982) Experimental and ecological studies on the rubber-tea artificial community. Acta Bot. Sin. 24, 164171.
  • Gao S, Han H, Feng HL, Zhao SJ, Meng QW (2010) Overexpression and suppression of violaxanthin de-epoxidase affects the sensitivity of photosystem ii photoinhibition to high light and chilling stress in transgenic tobacco. J. Integr. Plant Biol. 52, 332339.
  • Gao Z, Zeng D, Cheng F, Tian Z, Guo L, Su Y, Yan M, Jiang H, Dong G, Huang Y, Han B, Li J, Qian Q (2011) Alk, the key gene for gelatinization temperature, is a modifier gene for gel consistency in rice. J. Integr. Plant Biol. 53, 756765.
  • Garcia-Oliveira AL, Tan L, Fu Y, Sun C (2009) Genetic identification of quantitative trait loci for contents of mineral nutrients in rice grain. J. Integr. Plant Biol. 51, 8492.
  • Geng BY (1983) Stachyophyton gen. nov. discovers from Lower Devonian of Yunnan and its significance. Acta Bot. Sin. 25, 574579.
  • Gong C, Li T, Li Q, Yan L, Wang T (2011) Rice OSRAD21–2 is expressed in actively dividing tissues and its ectopic expression in yeast results in aberrant cell division and growth. J. Integr. Plant Biol. 53, 1424.
  • Gong M, Ding NC, He ZY, Liu YL (1989) Correlation between lipid preoxidation damage and ultrastructural changes of mesophyll cells in barley and wheat seedlings during salt stress. Acta Bot. Sin. 31, 841846.
  • Guo BZ, Chen ZY, Lee RD, Scully BT (2008) Drought stress and preharvest aflatoxin contamination in agricultural commodity: Genetics, genomics and proteomics. J. Integr. Plant Biol. 50, 12811291.
  • Guo T, Liu X, Wan X, Weng J, Liu S, Liu X, Chen M, Li J, Su N, Wu F, Cheng Z, Guo X, Lei C, Wang J, Jiang L, Wan J (2011) Identification of a stable quantitative trait locus for percentage grains with white chalkiness in rice (Oryza sativa). J. Integr. Plant Biol. 53, 598607.
  • Guo WZ, Ma GJ, Zhu YC, Yi CX, Zhang TZ (2006) Molecular tagging and mapping of quantitative trait loci for lint percentage and morphological marker genes in upland cotton. J. Integr. Plant Biol. 48, 320326.
  • Guo YM, Shen SH, Jing YX, Kuang TY (2002) Plant proteomics in the post-genomic era. Acta Bot. Sin. 44, 631641.
  • Hamilton EW, Heckathorn SA, Joshi P, Wang D, Barua D (2008) Interactive effects of elevated CO2 and growth temperature on the tolerance of photosynthesis to acute heat stress in C3 and C4 species. J. Integr. Plant Biol. 50, 13751387.
  • Han B, Chen SX, Dai SJ, Yang N, Wang T (2010) Isobaric tags for relative and absolute quantification-based comparative proteomics reveals the features of plasma membrane-associated proteomes of pollen grains and pollen tubes from Lilium davidii. J. Integr. Plant Biol. 52, 10431058.
  • Hao GP, Zhang XH, Wang YQ, Wu ZY, Huang CL (2009) Nucleotide variation in the NCED3 region of Arabidopsis thaliana and its association study with abscisic acid content under drought stress. J. Integr. Plant Biol. 51, 175183.
  • Hao S, He SG, Qu BL (1978) Studies on the heterochromatic zone of M-chromosome in Vicia faba. Acta Bot. Sin. 20, 6670.
  • Hao SG (1988) A new Lower Devonian genus from Yunnan, with notes on the origin of leaf. Acta Bot. Sin. 30, 441448.
  • Hao ZF, Li XH, Xie CX, Weng JF, Li MS, Zhang DG, Liang XL, Liu LL, Liu SS, Zhang SH (2011) Identification of functional genetic variations underlying drought tolerance in maize using snp markers. J. Integr. Plant Biol. 53, 641652.
  • Henriquez MA, Daayf F (2010) Identification and cloning of differentially expressed genes involved in the interaction between potato and phytophthora infestans using a subtractive hybridization and cdna-aflp combinational approach. J. Integr. Plant Biol. 52, 453467.
  • Hong DY (1986) Biosystematic observation on 5 species of Consolida (Rannnculaceae). Acta Bot. Sin. 28, 110.
  • Hong T, Ma ZL, Chen JS (1987) Floral morphology of Populus lasiocarpa Oliv and its phylogenetic position in Populus. Acta Bot. Sin. 29, 236241.
  • Hou HY (1961) The concept and fundamental principles of vegetation regions. Acta Bot. Sin. 9, 275286.
  • Hsiao PK, Feng YS, Hsia KC, Feng SC, Ling SC, Chen YH (1973a) Search for biologically active substances in Chinese medicinal plants–new sources of five medicinal alkaloids. Acta Bot. Sin. 15, 6470.
  • Hsiao PK, Hsia KC, Ho LY (1973b) The occurrence of some important tropane alkaloids in Chinese solanaceous plants. Acta Bot. Sin. 15, 187194.
  • Hsü J (1966) On plant-remains from the devonian of Yunnan and their significance in the identification of the stratigraphical sequence of this region. Acta Bot. Sin. 13, 5070.
  • Hsü J (1973) On the discovery of some plant fossils from the Mt. Jolmo-Lungma region, southern Tibet, and its significance. Acta Bot. Sin. 11, 254260.
  • Hsü J, Chiang TC, Young HC (1974a) Sporo-pollen assemblage and geological age of the Lower Xinminbu Formation of Chiuchuan, Kansu. Acta Bot. Sin. 16, 365379.
  • Hsü J, Chu CN, Chen Y, Hu YF, Tuan SY (1975) New genera and species of the Late Triassic from Yungjen, Yunnan II. Acta Bot. Sin. 17, 7076.
  • Hsü J, Chu CN, Chen Y, Tuan SY, Hu YF, Chu WC (1974b) New genera and species of the Late Triassic plants from Yungjen, Yunnan I. Acta Bot. Sin. 16, 266287.
  • Hsü J, Tao JR, Sun XJ (1973) On the discovery of a Quercus semicarpifolia bed in mount Shisha Pangma and its significance in botany and geology. Acta Bot. Sin. 15, 103118.
  • Hu SP, Zhou Y, Zhang L, Zhu XD, Li L, Luo LJ, Liu GL, Zhou QM (2009a). Correlation and quantitative trait loci analyses of total chlorophyll content and photosynthetic rate of rice (Oryza sativa) under water stress and well-watered conditions. J. Integr. Plant Biol. 51, 879888.
  • Hu SY, Chu ZC (1965) Investigation of sexual process in interspecific crosses between Gossipium hirsutum and G. arboretum. Acta Bot. Sin. 13, 314329.
  • Hu SY (1960) Studies in the polyembryony of Hosta caerulea Tratt. I. Observations on the embryogeny and the origin of polyembryony. Acta Bot. Sin. 9, 147152.
  • Hu SY (1963) Studies in the polyembryony of Hosta caerulea Tratt. II. Observations on the development of adventive embryo under hormone-treatments. Acta Bot. Sin. 11, 1625.
  • Hu SY (1964) Accumulation and movement of starch during caryopsis development of the wheat. Acta Bot. Sin. 12, 139153.
  • Hu SY, Chu ZC (1964) A histochemical study of DNA in sexual cells of some angiosperms. Acta Bot. Sin. 12, 333350.
  • Hu SY, Wang MS, Hsu LY (1977) Electron-microscope observations on the microsporogenesis in male-sterile and its maintainer-lines of wheat. Acta Bot. Sin. 19, 167171.
  • Hu SY, Zhu C (1979) The fusion of male and female nuclei in fertilization of higher plants. Acta Bot. Sin. 21, 110.
  • Hu SY, Zhu C, Xu LY, Li XR, Shen JH (1979) Ultrastructure of male gametophyte in wheat I. The formation of generative and vegetative cells. Acta Bot. Sin. 21, 208214.
  • Hu Y, Guo WZ, Zhang TZ (2009b) Construction of a bacterial artificial chromosome library of tm-1, a standard line for genetics and genomics in upland cotton. J. Integr. Plant Biol. 51,107112.
  • Hu YF (1980) The feature of fossil plants from the Lower Cangfanggou Group of Upper Permian, Northern Xinjiang. Acta Bot. Sin. 22, 8086.
  • Hu YF (1983) New record of fossil plants from the Lower Shihezi Formation of Shanxi. Acta Bot. Sin. 25, 197198.
  • Hu YS, Guan LQ, Tang ZX (1985) Anatomy of the secondary phloem and the crystalliferous phloem fibers in the stem of Torreya grandis. Acta Bot. Sin. 27, 569575.
  • Huang BH (1983) Fossil plants from the Taohaiyingzi Formation (Late Permian) in eastern Nei Mongol. Acta Bot. Sin. 25, 580583.
  • Huang BR, Xu CP (2008) Identification and characterization of proteins associated with plant tolerance to heat stress. J. Integr. Plant Biol. 50, 12301237.
  • Ifuku K, Ishihara S, Sato F (2010) Molecular functions of oxygen-evolving complex family proteins in photosynthetic electron flow. J. Integr. Plant Biol. 52, 723734.
  • Jian LC, Sun LB, Sun DL (1982) Ultrastructural localization of ATPase activity in the cells of the apical meristem zone, elongation zone and root hair zone of tomato roots. Acta Bot. Sin. 24, 408412.
  • Jiang DX, Yang HQ (1980) Petroleum sporo-pollen assemblages and oil source rock of Yumen oil bearing region in Gansu. Acta Bot. Sin. 22, 280285.
  • Jiang HW, Chen YP, Li MR, Xu XL, Wu GJ (2011) Overexpression of sgr results in oxidative stress and lesion-mimic cell death in rice seedlings. J. Integr. Plant Biol. 53, 375387.
  • Jiang MY (1999) Generation of hydroxyl radicals and its relation to cellular oxidative damage in plants subjected to water stress. Acta Bot. Sin. 41, 229234.
  • Jiang MY, Yang WY, Xu J, Chen QY (1994) Active oxygen damage effect of chlorophyll degradation in rice seedlings under osmotic stress. Acta Bot. Sin. 36, 289295.
  • Jiang S, Sheng XW, Qi QH (1984) A comparative study on diurnal changes of photosynthetic rate in Stipa grandis community in Nei Monggol region. Acta Bot. Sin. 26, 644652.
  • Jiang XM, Qi XH (1984) Differentiation of vascular tissue and quiescent centre in the root apex of Glycine max (L.) Merr. Acta Bot. Sin. 26, 588594.
  • Jiang ZJ, Huang XP, Zhang JP (2010) Effects of CO2 enrichment on photosynthesis, growth, and biochemical composition of seagrass Thalassia hemprichii (Ehrenb.) Aschers. J. Integr. Plant Biol . 52, 904913.
  • Jung Y, Park J, Choi Y, Yang JG, Kim D, Kim BG, Roh K, Lee DH, Auh CK, Lee S (2010) Expression analysis of proline metabolism-related genes from halophyte Arabis stelleri under osmotic stress conditions. J. Integr. Plant Biol. 52, 891903.
  • Keng PC, Liou L (1960) A study on the tribe Eragrostideae and its two genera new to China. Acta Bot. Sin. 9, 4874.
  • Kolarovic L, Luxova M, Valentovic P (2006) Effect of osmotic stress in early stages of ontogenesis on root respiration, growth, sugar content, and cell injury in maize seedlings differing in drought sensitivity. J. Integr. Plant Biol. 48, 814822.
  • Kong ZC, Du NQ (1980) Vegetational and climatic changes in the past 30,000–10,000 years in Beijing. Acta Bot. Sin. 22, 330338.
  • Kuang KZ (1960) De familia monotypica Rhoipteleaceae. Acta Bot. Sin. 9, 4347.
  • Kuang TY, Chang CD, Hao NP, Lin SC, Lou SQ, Li TZ, Zsao PY (1979) Structure and function of chloroplast membrane–(I) ultrastructure and constituents of chloroplast membrane in relation to function of photosystem II. Acta Photophysiol. Sin. 2, 99107.
  • Kuo CF (1964) Histochemical localization of various enzymes in plant vascular bundles, with special reference to their significance in transportation of organic substance. Acta Bot. Sin. 12, 100108.
  • Kuo CF, Lou CH (1966) Histochemical observations on the distribution of adenosine triphosphatase in phloem and motor organs in higher plants. Acta Bot. Sin. 14, 4149.
  • Kuo JS, Wang FH (1963) The effect of IAA and coconut milk on the growth of immature sunflower embryos cultured in vitro. Acta Bot. Sin. 11, 141154.
  • Kuo JS, Wang FH (1964) The effect of coconut milk, casein hydrolysate and glutamine on the growth of the sunflower young embryos grown in vitro. Acta Bot. Sin. 12, 364375.
  • Lee CL (1978) Plant Microscopy Technique. Science Press, Beijing .
  • Lee CL (1979) Cotton Morphological. Science Press, Beijing .
  • Lee CL, Chang HY (1962a) Studies on the embryos of Pinus koraiensis grown in vitro I. Acta Bot. Sin. 10, 103112.
  • Lee CL, Chang HY (1962b). Studies on the embryos of Pinus koraiensis grown in vitro II. Acta Bot. Sin. 10, 179186.
  • Lee CL, Chang HY (1963) Studies on the embryos of Pinus koraiensis grown in vitro III. Morphological differentiation of the root during germination. Acta Bot. Sin. 11, 225237.
  • Lee CL, Chang HY (1964) Studies on the embryos of Pinus koraiensis grown in vitro IV. Acta Bot. Sin. 12, 233240.
  • Lee CL, Hu YS, Liu SJ (1964a) Studies on the morphological differentiation of excised stems of Mentha arvensis L. I. The effect of colchicine upon the excised stem tips. Acta Bot. Sin. 12, 3952.
  • Lee CL, Kwei YL (1973) Studies on the morphological differentiation of excised stems of Mentha haplocalyx Briq.II. The effect of MH upon the excised stem tips. Acta Bot. Sin. 15, 147152.
  • Lee CL, Sun AT (1963) Studies on the growth of excised stem tips of Stachys sieboldii I. Formation of tuber in vitro. Acta Bot. Sin. 11, 117128.
  • Lee CL, Sun AT (1965) Tuber formation in excised stem tips of Stachys sieboldii. Acta Bot. Sin. 13, 137142.
  • Lee CL, Sun AT, Kwei YL (1964b) Studies on the growth of excised stem tips of Stachys sieboldii II. Acta Bot. Sin. 12, 220232.
  • Lee CL, Yi S (1962) Plant Anatomy . Science Press, Beijing (a translated book).
  • Lee CL, Zhang XY (1983) Plant Anatomy . Higher Education Press, Beijing .
  • Lei YB, Song SQ, Fu, Jr (2005) Possible involvement of anti-oxidant enzymes in the cross-tolerance of the germination/growth of wheat seeds to salinity and heat stress. J. Integr. Plant Biol. 47, 12111219.
  • Li BS, Zhang JW, Wang JT, Chen WL (1981) Preliminary study of the subnival vegetation in Xizang. Acta Bot. Sin. 23, 132189.
  • Li BS, Zhang JW, Wang JT, Chen WL (1985) The alpine cushion vegetation of Xizang. Acta Bot. Sin. 27, 311317.
  • Li GM, Yang HY (1986) Further embryological studies on the in vitro apogamy in Oryza saliva L. Acta Bot. Sin. 28, 229234.
  • Li H, Lin F, Wang G, Jing R, Zheng Q, Li B, Li Z (2012a). Quantitative trait loci mapping of dark-induced senescence in winter wheat (Triticum aestivum). J. Integr. Plant Biol. 54, 3344.
  • Li J, Dong LG, You SN (2012) Keyword analysis of papers published in Chinese Journal of Scientific and Technical Periodicals from 2006 to 2011. J. Sci. Techn. Period. 23, 404407.
  • Li S, Yang D, Zhu Y (2007) Characterization and use of male sterility in hybrid rice breeding. J. Integr. Plant Biol. 49, 791804.
  • Li SQ, Chen SL, Zhang ZK (1984) Application of numerical classification to study the grazing retrogressive succession stages of the Kobresia vegetation on the subalpine meadow. Acta Bot. Sin. 26, 202208.
  • Li TZ, Hao NB, Lou SQ, Zhang QD, Lin SQ, Kuang TY (1980) Structure and function of chloroplast membrane IV. Chlorophyll-protein complexes of wheat thylakoid membrane. Acta Bot. Sin. 22, 390394.
  • Li W, Cui X, Meng ZL, Huang XH, Xie Q, Wu H, Jin HL, Zhang DB, Liang WQ (2012b). Transcriptional regulation of Arabidopsis MIR168a and argonaute1 homeostasis in abscisic acid and abiotic stress responses. Plant Physiol. 158, 12791292.
  • Li W, Qi L, Lin XD, Chen HH, Ma ZQ, Wu KQ, Huang SZ (2009) The expression of manganese superoxide dismutase gene from nelumbo nucifera responds strongly to chilling and oxidative stresses. J. Integr. Plant Biol. 51, 279286.
  • Li WY, Liang YL (1981) The pliocene sporo-pollen assemblage of Huang Hun in Hebei plain and its significance in palaeobotany and palaeogeography. Acta Bot. Sin. 23, 478486.
  • Li XW, Shen XF, Li JM, Eneji AE, Li ZH, Tian XL, Duan LS (2010) Coronatine alleviates water deficiency stress on winter wheat seedlings. J. Integr. Plant Biol. 52, 616625.
  • Li Y, Wang VH, Duan CH, Mao CY (1973a). Preliminary observations on effects of various oxygen partial pressures on morpholigical and constitutional changes in cucumber during storage. Acta Bot. Sin. 15, 140144.
  • Li Y, Wang VH, Mao CY, Duan CH (1973b) Effects of oxygen and carbon dioxide on post-maturation of tomato. Acta Bot. Sin. 15, 93102.
  • Li ZL (Lee Cheng-lee), Li RA (1981) Anatomical observation of assimilating branches of nine xerophytes in Gansu. Acta Bot. Sin. 23, 181185.
  • Li ZL (Lee Cheng-lee), Zhang XY (1985) Comparative wood anatomy of three species of normal and dwarf pines. Acta Bot. Sin. 27, 354360.
  • Liao ZH, Chen M, Gong YF, Li ZG, Zuo KJ, Wang P, Tan F, Sun XF, Tang KX (2006) A new farnesyl diphosphate synthase gene from taxus media rehder: Cloning, characterization and functional complementation. J. Integr. Plant Biol. 48, 692699.
  • Lin P, Hu JT (1983) The Mangrove communities in Guangxi. Acta Bot. Sin. 25, 9597.
  • Ling KL, Chow YR (1963) The effect of gibberellin on the growth and development of paddy rice and winter wheat. Acta Bot. Sin. 11, 8395.
  • Liu   (2012) From Acta Botanica Sinica to JIPB: Connecting Chinese plant science with the international community for 60 years. J. Integr. Plant Biol. 54, 678681.
  • Liu CL, Zhao L, Yu GH (2011a) The dominant glutamic acid metabolic flux to produce gamma-amino butyric acid over proline in nicotiana tabacum leaves under water stress relates to its significant role in antioxidant activity. J. Integr. Plant Biol. 53, 608618.
  • Liu GD, Liu CD, Fong HJ, Hu Q, Cheng GR, Xu DY, Cao SL, Chang QY, Li NP (1985) Chemical component studies on the essential oil of Artemisia cina Berg. Acta Bot. Sin. 27, 110112.
  • Liu GS, Chen BZ, Song WZ, Xiao PG (1978) Comprehensive utilization of Berberis poiretiiv—the therapeutical value of berbamine and its content in 22 species of Berberis. Acta Bot. Sin. 20, 255259.
  • Liu KL, Shen L, Wang JQ, Sheng JP (2008) Rapid inactivation of chloroplastic ascorbate peroxidase is responsible for oxidative modification to rubisco in tomato (Lycopersicon esculentum) under cadmium stress. J. Integr. Plant Biol. 50, 415426.
  • Liu L, Wang Y, Wang N, Dong YY, Fan XD, Liu XM, Yang J, Li HY (2011b) Cloning of a vacuolar h+-pyrophosphatase gene from the halophyte Suaeda corniculata whose heterologous overexpression improves salt, saline-alkali and drought tolerance in Arabidopsis. J. Integr. Plant Biol. 53, 731742.
  • Liu SB, Wang XC, Shi MJ, Chen YY, Hu ZH, Tian WM (2009a) Vegetative storage protein with trypsin inhibitor activity occurs in Sapindus mukorassi, a Sapindaceae deciduous tree. J. Integr. Plant Biol. 51, 352359.
  • Liu WY, Wang MM, Huang J, Tang HJ, Lan HX, Zhang HS (2009b) The OsDHODH1 gene is involved in salt and drought tolerance in rice. J. Integr. Plant Biol. 51, 825833.
  • Liu XY, Yang JH, Li B, Yang XM, Meng QW (2006) Antisense-mediated depletion of tomato chloroplast omega-3 fatty acid desaturase enhances thermal tolerance. J. Integr. Plant Biol. 48, 10961107.
  • Lou CH (1955) Protoplasmic continuity in plants. Acta Bot. Sin. 4, 183211.
  • Lou CH, Wu SH, Chang WC, Shao LM (1956) Intercellular movement of protoplasm as a means of translocation of organic material in garlic. Acta Bot. Sin. 5, 345362.
  • Love CG, Andongabo AE, Wang J, Carion PWC, Rawlings CJ, King GJ (2012) InterStoreDB: A generic integration resource for genetic and genomic data. J. Integr. Plant Biol. 54, 345355.
  • Lu B, Chen F, Gong ZH, Xie H, Liang JS (2007) Integrin-like protein is involved in the osmotic stress-induced abscisic acid biosynthesis in Arabidopsis thaliana. J. Integr. Plant Biol. 49, 540549.
  • Lu CM (2010) Photosynthesis for food, fuel and the future. J. Integr. Plant Biol. 52, 694697.
  • Lu GH, Tang JH, Yan JB, Ma XQ, Li JS, Chen SJ, Ma JC, Liu ZX, Li-Zhu E, Zhang YR, Dai JR (2006) Quantitative trait loci mapping of maize yield and its components under different water treatments at flowering time. J. Integr. Plant Biol. 48, 12331243.
  • Luo M, Liu J, Lee D, Scully BT, Guo BZ (2010) Monitoring the expression of maize genes in developing kernels under drought stress using oligo-microarray. J. Integr. Plant Biol. 52, 10591074.
  • Ma ZL, Yang HY, Wang R, Tien P (2004) Construct hairpin rna to fight against rice dwarf virus. Acta Bot. Sin. 46, 332336.
  • Murthy HN, Dijkstra C, Anthony P, White DA, Davey MR, Power JB, Hahn EJ, Paek KY (2008) Establishment of Withania somnifera hairy root cultures for the production of withanolide A. J. Integr. Plant Biol. 50, 975981.
  • Olsen KM, Caicedo AL, Jia YL (2007) Evolutionary genomics of weedy rice in the USA. J. Integr. Plant Biol. 49, 811816.
  • Ono NN, Britton MT, Fass JN, Nicolet CM, Lin D, Tian L (2011) Exploring the transcriptome landscape of pomegranate fruit peel for natural product biosynthetic gene and SSR marker discovery. J. Integr. Plant Biol. 53, 800813.
  • Ow DW (2011) Recombinase-mediated gene stacking as a transformation operating system. J. Integr. Plant Biol. 53, 512519.
  • Pan RC, Wang YL, Luo YX, Zhang MG, Li ZJ, Chen XY (1988) Effect of PP333 on stem elongation and leaf anatomy of peanut plant. Acta Bot. Sin. 30, 259264.
  • Pei XF, Noble MS, Davoli MA, Rosfjord E, Tilli MT, Furth PA, Russell R, Johnson MD, Dickson RB (2004) Explant-cell culture of primary mammary tumors from mmtv-c-myc transgenic mice. In Vitro Cell. Dev. Biol.-Animal 40, 1421.
  • Qian W, Ge S, Hong DY (2000) Assessment of genetic variation of Oryza granulata detected by RAPDs and ISSRs. Acta Bot. Sin. 42, 741750.
  • Rohila JS, Yang YN (2007) Rice mitogen-activated protein kinase gene family and its role in biotic and abiotic stress response. J. Integr. Plant Biol. 49, 751759.
  • Ross CA, Liu Y, Shen QXJ (2007) The WRKY gene family in rice (Oryza sativa). J. Integr. Plant Biol. 49, 827842.
  • Sa ZS, Huang LQ, Wu GL, Ding JP, Chen XY, Yu T, Shi C, Shen WB (2007) Carbon monoxide: A novel antioxidant against oxidative stress in wheat seedling leaves. J. Integr. Plant Biol. 49, 638645.
  • Shan Y (1973) New plant resource in Yunnan–the “Dragon Blood” (Dracaena cambodiana). Acta Bot. Sin. 15, 145146.
  • Sharkey TD, Zhang R (2010) High temperature effects on electron and proton circuits of photosynthesis. J. Integr. Plant Biol. 52, 712722.
  • Shaya F, Gaiduk S, Keren I, Shevtsov S, Zemah H, Belausov E, Evenor D, Reuveni M, Ostersetzer-Biran O (2012) Expression of mitochondrial gene fragments within the tapetum induce male sterility by limiting the biogenesis of the respiratory machinery in transgenic tobacco. J. Integr. Plant Biol. 54, 115129.
  • Shen YQ, Fang BC, Sheng MZ (1980) The effect of photosynthesis and translocation in cotton leaf. Acta Bot. Sin. 22, 136140.
  • Shu LB, Ding W, Wu JH, Feng FJ, Luo LJ, Mei HW (2010) Proteomic analysis of rice leaves shows the different regulations to osmotic stress and stress signals. J. Integr. Plant Biol. 52, 981995.
  • Sun CS, Chu CQ, Li SQ (1983) Electron microscope observation of microspore division of wheat in vitro. Acta Bot. Sin. 25, 295299.
  • Sun CS, Wang CS, Chu ZQ (1973) Cytological studies on the androgenesis of Triticale. Acta Bot. Sin. 15, 163173.
  • Sun DY, Yu MJ (1986) The effects of the calmodulin inhibitors on the phytochrome controlled rotation of mougeotia chloroplast. Acta Bot. Sin. 28, 615621.
  • Sun HD, Lin ZW, Niu FT (1978) The study of the Chinese drugs of Umbelliferae I. on the chemical constituents of the roots of Angelica apaensis Shan et Yuan, Heracleum rapula Fr., and Heracleum scabridurn Fr. Acta Bot. Sin. 20, 244254.
  • Sun JS, Zhu ZQ, Wang JJ (1978) Anther culture and androgenesis of rye. Acta Bot. Sin. 20, 210214.
  • Sun XJ, Du NQ, Chen MH (1981) The paleovegetation and paleoclimate during time of Homudu People. Acta Bot. Sin. 23, 146151.
  • Sun XJ, Zhang DH, Hou JS (1979) Late Cretaceous (Maastrichtian) sporo-pollen assemblages from Northern Nei Monggol. Acta Bot. Sin. 21, 285294.
  • Tan L, Liu F, Xue W, Wang G, Ye S, Zhu Z, Fu Y, Wang X, Sun C (2007) Development of Oryza rufipogon and O. sativa introgression lines and assessment for yield-related quantitative trait loci. J. Integr. Plant Biol. 49, 871884.
  • Tan ZY, Dong YM, Gao XY, Fang YR (1985) Changes of abscisic acid and gibberellin contents during the release of dormancy in winter buds of Populus tomentosa Carr. Acta Bot. Sin. 27, 381386.
  • Tang DT, Zhang JL, Xu GF, Niu YX, Tsui C (1980) The effect of plant hormone on callus formation and regeneration of plant in Cucumis melo L. var. outvmnesles fil. Acta Bot. Sin. 22, 132135.
  • Tang PH (1979) Variation of generative cell and vegetative nucleus in developing male gametophyte of Clivia nobilis etc. cultured in vitro II. Cytochemical observations on adenosine triphosphatase distribution. Acta Bot. Sin. 21, 107116.
  • Tang PH (1988) Scanning electronmicroscopic observations on development and structure of pericarp of Nelumbo nucifera Gaertn. Acta Bot. Sin. 30, 248253.
  • Tang PS (1979) Regulation and control of multiple pathways of respiratory metabolism in relation to other physiological functions in higher plants. Acta Bot. Sin. 21, 93106.
  • Tang SH (1953) Embryonic differentiation in Torreya grandis. Acta Bot. Sin. 2, 193–201.
  • Tao GQ, Song YR, Chen HY, Tong Z, Lian HP, Li SH, Tsui C (1980) The effects of cytokinins on unfolding of cotyledons and opening of hypocotylar hooks of cucumber. Acta Bot. Sin. 22, 3740.
  • Tao JR (1981) Succession of the floras in Xizang during Upper Cretaceous-Paleogene and Neogene. Acta Bot. Sin. 2, 140145.
  • Tao JR, Kong ZC (1973) The fossil florule and sporo-pollen assemblage of the Shang-In coal series of Erhyuan, Yunnan. Acta Bot. Sin. 15, 120126.
  • Tewari RK, Kumar P, Sharma PN (2007) Oxidative stress and antioxidant responses in young leaves of mulberry plants grown under nitrogen, phosphorus or potassium deficiency. J. Integr. Plant Biol. 49, 313322.
  • Tian HQ, Yang HY (1983) Synergid apogamy and egg cell anomalous division in cultured ovaries of Oryza sativa L. Acta Bot. Sin. 25, 403408.
  • Tien P, Tang PS (1963) Oxidative metabolism of glucose in leaf tissues infected with Tobacco mosaic virus. Acta Bot. Sin. 11, 17.
  • Tomita M, Asao M, Kuraki A (2010) Effective isolation of retrotransposons and repetitive DNA families from the wheat genome. J. Integr. Plant Biol. 52, 679691.
  • Tong Z, Lian HP, Song YR, Tao GQ, Chen HY, Tsui C (1980) The relationship between the effects of cytokinin on the expension and metabolism of excised cucumber cotyledons and water stress. Acta Bot. Sin. 22, 360364.
  • Tseng CK, Chang CF (1953) On a new species of Pelvetia and its distribution. Acta Bot. Sin. 2, 280297.
  • Tseng CK, Chang TJ (1954) Studies on Chinese Sargassums, I. Sargassum pallidum (Turn.) Ag. Acta Bot. Sin. 3, 235254.
  • Tseng CK, Chang TJ (1955) Studies on Porphyra III. Sexual reproduction of Porphyra. Acta Bot. Sin. 4, 153165.
  • Tseng CK, Chang TJ (1955a) Studies on Porphyra II. on the Conchocelis-phase of Porphyra tenera Kjellm. and its conchospores. Acta Bot. Sin. 4, 2746.
  • Tseng CK, Chang TJ (1955b) A revision on the life cycle diagram of Porphyra tenera Kjellm. Acta Bot. Sin. 4, 265268.
  • Tseng CK, Chang TJ (1958) On Phorphyra marginata sp. nov. and its systematic position. Acta Bot. Sin. 7, 1526.
  • Tsiang Y (1973a) Dolichopetalum genus novum Asclepiadacearum. Acta Bot. Sin. 15, 131135.
  • Tsiang Y (1973b) Sinopimelodendron, a new genus of Euphorbiaceae from Kwangsi. Acta Bot. Sin. 15, 136139.
  • Tsoong PC (1961) A new system for the genus Pedicularis (continued). Acta Bot. Sin. 9, 230274.
  • Tuan SY, Chen Y, Keng KC (1977) Some early cretaceous plants from Lhasa, Tibetan Autonomous Region, China. Acta Bot. Sin. 19, 114119.
  • Vermerris W (2011) Survey of genomics approaches to improve bioenergy traits in maize, sorghum and sugarcanefree access. J. Integr. Plant Biol. 53, 105119.
  • Wang FH, Chen TK (1974) The embryogeny of Cathaya (Pinaceae). Acta Bot. Sin. 16, 6472.
  • Wang FH, Chen TK (1983) A contribution to the embryology of ginkgo with a discussion on the affinity of the ginkgoales. Acta Bot. Sin. 25, 199207.
  • Wang FH, Yang LF (1960) The early embryogeny of Keteleeria. Acta Bot. Sin. 9, 157158.
  • Wang HY, Xue YB (2005) Subcellular localization of the s locus f-box protein AhSLF-S2 in pollen and pollen t tubes of self-incompatible Antirrhinum. J. Integr. Plant Biol. 47, 7683.
  • Wang WY (1980) Observations on the capacity of drought resistance of Sophora Moocroftiana (Wall.) Benth ex Baker. Acta Bot. Sin. 22, 93294.
  • Wang XP, Hu SS (1984) The phytoeoenological features of mixed evergreen and deciduous broadleaf forest on yellow-brown soil mountain in Guangxi. Acta Bot. Sin. 26, 294301.
  • Wang XQ, Zou YP, Zhang DM, Zhang ZX, Hong DY (1996) Problems in the use of RAPD to the study of genetic diversity and systematics. Acta Bot. Sin. 38, 954962.
  • Wang XZ, Zhou SF, Xu SJ (1979) Discussions on the palaeogeography and palaeoclimatology of the Late Eocene Epoch and Oligocene Epoch North Jiangsu. Acta Bot. Sin. 21, 149156.
  • Wang ZN, Xiao Y, Chen WS, Tang KX, Zhang L (2010) Increased vitamin C content accompanied by an enhanced recycling pathway confers oxidative stress tolerance in Arabidopsis. J. Integr. Plant Biol. 52, 400409.
  • Wang ZR (1987) Cytotaxonomic observations on Mecodium paniculiflorum (presl) Copel. and M. osmnndoides (V.D.B.) Ching. Acta Bot. Sin. 29, 145148.
  • Wei ZY, Yang HY (1986) Histochemical studies on in vitro parthenogenesis in Helianthus annuus L. Acta Bot. Sin . 28, 117122.
  • Wong FH (1952) The gametophytes of Glyplostrobus. Acta Bot. Sin. 1, 817.
  • Wu SH (1958) Ntercellular migration of nucleus in somatic tissues. Acta Bot. Sin. 7, 113.
  • Wu SM, Li ZL (Lee Chenglee) (1988) Comparative anatomical studies on the vessel elements of eight genera in Magnoliaceae. Acta Bot. Sin. 30, 3339.
  • Wuensche H, Baldwin IT, Wu J (2011) Silencing NOA1 elevates herbivory-induced jasmonic acid accumulation and compromises most of the carbon-based defense metabolites in Nicotiana attenuata. J. Integr. Plant Biol. 53, 619631.
  • Xu CP, Sullivan JH (2010) Reviewing the technical designs for experiments with ultraviolet-b radiation and impact on photosynthesis, DNA and secondary metabolism. J. Integr. Plant Biol. 52, 377387.
  • Xu FJ, Jin CW, Liu WJ, Zhang YS, Lin XY (2011) Pretreatment with H2O2 alleviates aluminum-induced oxidative stress in wheat seedlings. J. Integr. Plant Biol. 53, 4453.
  • Xu J, Liu Y, Liu J, Cao M, Wang J, Lan H, Xu Y, Lu Y, Pan G, Rong T (2012) The genetic architecture of flowering time and photoperiod sensitivity in maize as revealed by qtl review and meta analysis. J. Integr. Plant Biol. 54, 358373.
  • Xu SC, Ding HD, Su FX, Zhang AY, Jiang MY (2009) Involvement of protein phosphorylation in water stress-induced antioxidant defense in maize leaves. J. Integr. Plant Biol. 51, 654662.
  • Xu SF, Chen J, Liu LX, Wang XF, Huang XL, Zhai YH (2007) Proteomics associated with virulence differentiation of curvularia lunata in maize in China. J. Integr. Plant Biol. 49, 487496.
  • Xu ZH, Huang B (1984) Anther factor(s) in barley anther culture. Acta Bot. Sin. 26, 110.
  • Xu ZS, Ma YZ, Cheng XG, Cao LX, Li LC, Chen M (2006) Isolation and characterization of GmSTY1, a novel gene encoding a dual-specificity protein kinase in soybean (Glycine max L.) J. Integr. Plant Biol. 48, 857866.
  • Yang DL, Jing RL, Chang XP, Li W (2007) Quantitative trait loci mapping for chlorophyll fluorescence and associated traits in wheat (Triticum aestivum) J. Integr. Plant Biol. 49, 646654.
  • Yang HR, Tang K, Liu HT, Pan QH, Huang WD (2009) Jasmonic acid is induced in a biphasic manner in response of pea seedlings to wounding. J. Integr. Plant Biol. 51, 562573.
  • Yang HY, Zhou C (1979) Experimental researches on the two pathways of pollen development in Oryza sativa L. Acta Bot. Sin. 21, 345351.
  • Yang K, Lin KY, Zhang RX, Xie QM (1983) Application of LANDSAT MSS digital image processing techniques in investigation of aquatic plant distribution in Honghu lake. Acta Bot. Sin. 25, 472481.
  • Yang PF, Li XJ, Liang Y, Jing YX, Shen SH, Kuang TY (2006) Proteomic analysis of the response of liangyoupeijiu (super high-yield hybrid rice) seedlings to cold stress. J. Integr. Plant Biol. 48, 945951.
  • Yang SH (1978) Studies on the development of pistillate flowers and staminate flowers in Hodgsonia macrocarpa Cogn. Acta Bot. Sin. 20, 314322.
  • Yang SH (1982) Studies on the development of flower in Gastrodia ekata Bl. Acta Bot. Sin. 24, 2127.
  • Ye HC (1984) Studies on cell suspension culture and plant regeneration in rice. Acta Bot. Sin. 26, 5259.
  • Yin XY, Yang AF, Zhang KW, Zhang JR (2004) Production and analysis of transgenic maize with improved salt tolerance by the introduction of AtNHX1 gene. Acta Bot. Sin. 46, 854861.
  • Yu D, Jiang L, Gong H, Liu CM (2012) EMBRYONIC FACTOR 19 encodes a pentatricopeptide repeat protein that is essential for the initiation of zygotic embryogenesis in Arabidopsis. J. Integr. Plant Biol. 54, 5564.
  • Yu J, Yu S, Lu C, Wang W, Fan S, Song M, Lin Z, Zhang X, Zhang J (2007) High-density linkage map of cultivated allotetraploid cotton based on SSR, TRAP, SRAP and AFLP markers. J. Integr. Plant Biol. 49, 716724.
  • Yu L, Niu JS, Chen PD, Ma ZQ, Liu DJ (2005) Cloning, physical mapping and expression analysis of a wheat mlo-like. J. Integr. Plant Biol. 47, 214222.
  • Zeng SX, Wang YR, Li MR (1997) Comparison of the changes of membrane protective system in rice seedlings during enhancement of chilling resistance by different stress pretreatment. Acta Bot. Sin. 39, 130136.
  • Zgallai H, Steppe K, Lemeur R (2006) Effects of different levels of water stress on leaf water potential, stomatal resistance, protein and chlorophyll content and certain anti-oxidative enzymes in tomato plants. J. Integr. Plant Biol. 48, 679685.
  • Zhang H, Hu LY, Hu KD, He YD, Wang SH, Luo JP (2008) Hydrogen sulfide promotes wheat seed germination and alleviates oxidative damage against copper stress. J. Integr. Plant Biol. 50, 15181529.
  • Zhang H, Shen WB, Xu LL (2003) Effects of nitric oxide on the germination of wheat seeds and its reactive oxygen species metabolisms under osmotic stress. Acta Bot. Sin. 45, 901905.
  • Zhang L, Li H, Wang J (2012) The statistical power of inclusive composite interval mapping in detecting digenic epistasis showing common F2 segregation ratios. J. Integr. Plant Biol. 54, 270279.
  • Zhang P, Wang WQ, Zhang GL, Kaminek M, Dobrev P, Xu J, Gruissem W (2010) Senescence-inducible expression of isopentenyl transferase extends leaf life, increases drought stress resistance and alters cytokinin metabolism in cassava. J. Integr. Plant Biol. 52, 653669.
  • Zhang QD, Lou SQ, Li TZ, Ma GZ, Zhang GZ, Kuang TY (1979) Structure and function of chloroplast membrane II. The effects of potassium and magnesium Ions on the absorption spectrum and photosystem II function of two types of chloroplast me-mbranes. Acta Bot. Sin. 21, 250258.
  • Zhang WC, Yan WM, Lou CH (1984) Transport of disassembled protoplasm from degenerated nucellus into embryo sac and its role in feeding the proliferating antipodals in wheat. Acta Bot. Sin. 26, 1118.
  • Zhang WC, Yan WM, Lou CH (1988) The structural changes during the degeneration process of antipodal complex and its function to endosperm formation in wheat caryopsis. Acta Bot. Sin. 30, 457462.
  • Zhang WC, Yan WM, Wu SH (1980) Intercellular migration of protoplasm and its relation to the development of embryo sac in nucellus of wheat. Acta Bot. Sin. 22, 3236.
  • Zhang XS (1978) The plateau zonality of vegetation in Xizang. Acta Bot. Sin. 20, 140149.
  • Zhang XY, Liu DR, Wang YL (1978) A preliminary observation on histogenesis and organogenesis of the in vitro development from rice microspores into plantlets. Acta Bot. Sin. 20, 197203.
  • Zhang ZS (Chang Che-tseng) (1984) A preliminary study on the wood anatomy of Manglietia aromatica Dandy. Acta Bot. Sin. 26, 479483.
  • Zhao FY, Liu W, Zhang SY (2009) Different responses of plant growth and antioxidant system to the combination of cadmium and heat stress in transgenic and non-transgenic rice. J. Integr. Plant Biol. 51, 942950.
  • Zhao KF, Song J, Fan H, Zhou S, Zhao M (2010) Growth response to ionic and osmotic stress of NaCl in salt-tolerant and salt-sensitive maize. J. Integr. Plant Biol. 52, 468475.
  • Zhao SJ, Hu ZB, Liu D, Leung FCC (2006) Two divergent members of 4-coumarate: Coenzyme a ligase from Salvia miltiorrhiza Bunge: cDNA cloning and functional study. J. Integr. Plant Biol. 48, 13551364.
  • Zhao SL, Yang FX, Chen QC (1982) A test of using the method of fuzzy mathematic to study the grazing retrogressive succession stages of the Stipa steppe. Acta Bot. Sin. 24, 366373.
  • Zhao Y, Lu X, Liu C, Guan H, Zhang M, Li Z, Cai H, Lai J (2012) Identification and fine mapping of rhm1 locus for resistance to southern corn leaf blight in maize. J. Integr. Plant Biol. 54, 321329.
  • Zheng D (1985) Study on the floristic phytogeographical differentiation of Xizang Tibet. Acta Bot. Sin. 27, 8493.
  • Zheng D, Chen WL (1981) A preliminary study on the vertical belts of vegetation of the eastern Himalayas. Acta Bot. Sin. 23, 228234.
  • Zheng GC (Cheng Kuo-chang), Nie XW, Wang YX, Jian LC, Sun LH, Sun DL (1985) Cytochemical localization of adenosine triphosphataes activity during cytomixis in pollen mother cells of David Lily and its relation to the intercellular migrating chromatin substance. Acta Bot. Sin. 27, 2632.
  • Zheng SL, Zhang W (1983) A new genus of Pteridiaceae from Late Jurassic, East Heilongjiang province. Acta Bot. Sin. 25, 380384.
  • Zhong NQ, Han LB, Wu XM, Wang LL, Wang F, Ma YH, Xia GX (2012) Ectopic expression of a bacterium NhaD-type Na+/H+ antiporter leads to increased tolerance to combined salt/alkali stresses. J. Integr. Plant Biol. 54, 412421.
  • Zhou J, Yang CR, Yang RZ (1980) The structure of tenacigenin a. Acta Bot. Sin. 22, 6774.
  • Zhou SF, Chen XY, Xue XN, Zhang XG, Li YX (2007) Physiological and growth responses of tomato progenies harboring the betaine alhyde dehydrogenase gene to salt stress. J. Integr. Plant Biol. 49, 628637.
  • Zhou W, Sun QJ, Mang CF, Yuan YZ, Ji Z, Lu BB (2004) Effect of salt stress on ammonium assimilation enzymes of the roots of rice (Oryza sativa) cultivars differing in salinity resistance. Acta Bot. Sin. 46, 921927.
  • Zhou YL, Qian YQ (Y. C. Chien), Mu SK, Cai QG (1987) Studies on formation of flower bud and prerequisite of flowering in vitro in Gentiana manshurica Kitag. Acta Bot. Sin. 29, 357360.
  • Zhu C, Hu SY, Li XR (1979) In vitro fertilization of wheat ovaries with rye pollen. Acta Bot. Sin. 21, 385386.
  • Zhu JN, Chen GX (1981) Fimbriotheca tomentosa Zhu et Chen-A new genus and species from Permian of China and its systematic position. Acta Bot. Sin. 23, 487491.
  • Zhu JN, Du XM (1981) A new cycad-Primocycas chinensis gen. et sp. nov. discovers from the Lower Permian in Shanxi, China and its significance. Acta Bot. Sin. 23, 401–404.
  • Zhu ZQ, Sun JS, (1978) Cytological investigation on androgenesis of Triticum aestivum. Acta Bot. Sin. 20, 612.
  • Zhu ZQ, Wang JJ, Sun JS (1979) The induction of the albino pollen plants and preliminary observation of their ploidy in Triticum durum Desf. Acta Bot. Sin. 21, 295296.
  • Zou YP, Li FS, Mao CY, Zhang GZ, Yan LF, Tang PS (1979) Studies on plant respiration VIII. Multiple pathways of electron transport in mitochondria of rice seedlings. Acta Bot. Sin. 21, 199207.
  • Zu YG, Zhu TC (1987) The stability analysis and energy flow through Leymus chinensis population. Acta Bot. Sin. 29, 95103.
  • Zuo BY, Li SY, Wang RR, Kuang TY, Tuan HC (1979) Structure and function of chloroplast membrane III. The effects of Mg++ and K+ Ions toward the ultrastructure of two kinds of chloroplast thylakoid membranes. Acta Bot. Sin. 21, 328333.
  • Куаль Тин–юй, Ян Цзун–нянй, Цюй Шен (1966) Роль mарганца в фотосинтезе II. Роль марганца в фотофосфорилировании. Acta Bot. Sin. 14, 139143.
  • Ли Ши – ин (1960) Особенности формирования растительного покрова северного склона хребта кунь-луня и его связь с аридностью. Acta Bot. Sin. 9, 1631.
  • Ли Ши – ин (1961) Основные особенности пустынного растительного покрова северного синьцзяна. Acta Bot. Sin. 9, 287315.
  • Лю Шэнь-о, Фун Цзун-вэй, Чжао Да–цан (1959) О некоторых принципах геоботанического районирования Китаян. Acta Bot. Sin. 8, 87105.
  • TaНb ПэЙ-xya (1973) O ДИHaMИke ГehepatИbhoЙ kлetkИ И beretatИbhoro ЯДpa b paЗbИtИИ myЖc-kOrO ΓametoфИta Clivia nobilis npИ Иcckyctbehhom ПИtateЛbhom УcjiobИИ-mИkpOkИhocЪёmka И Oбщee ЦИtoЛorИЧeckoe haбЛЮДeНИe. Acta Bot. Sin. 15, 1221.
  • У Су-сюань (1955a) Предварительное cообщение оявлении л ере движения ядер череэ отверстия оболочки растительной клетки. Acta Bot. Sin. 4, 91100.
  • У Су-сюань (1955b) Вопрос о явлении передвижения ядер череэ отверстия оболочки растительной клетки. Acta Bot. Sin. 4, 233243.
  • У Су-сюань (1956) Оявлении обновления клеточных ядер. Acta Bot. Sin. 5, 114.
  • Ф. Ш. BAH (1953) Эмбриогенез у Таксодиеых (Taxodiaceae). Acta Bot. Sin. 2, 409416.
  • Ф. Ш. ВAH (1953) Поздний эмбриогенез у глиптостробуса (Glyptostrobus). Acta Bot. Sin. 2, 470475.
  • Ченг Тзуи, Ли Цин-юй (1962) Влияние индолилуксусной кислоты, гиббереллины и какосового сока на рост каллуса и на образование корней и их взаимоотношение. Acta Bot. Sin. 10, 309316.