Number of times cited according to CrossRef: 84

• Shouzhang Peng, Kailiang Yu, Zhi Li, Zhongming Wen and Chao Zhang, Integrating potential natural vegetation and habitat suitability into revegetation programs for sustainable ecosystems under future climate change, Agricultural and Forest Meteorology, 10.1016/j.agrformet.2019.02.023, 269-270, (270-284), (2019).
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• Simon E. Connor, Larissa Schneider, Jessica Trezise, Susan Rule, Russell L. Barrett, Atun Zawadzki and Simon G. Haberle, Forgotten impacts of European land‐use on riparian and savanna vegetation in northwest Australia, Journal of Vegetation Science, 29, 3, (427-437), (2017).
  Wiley Online Library
• Klára Řehounková, Kamila Lencová and Karel Prach, Spontaneous establishment of woodland during succession in a variety of central European disturbed sites, Ecological Engineering, 111, (94), (2018).
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• Jessie Woodbridge, Neil Roberts and Ralph Fyfe, Pan‐Mediterranean Holocene vegetation and land‐cover dynamics from synthesized pollen data, Journal of Biogeography, 45, 9, (2159-2174), (2018).
  Wiley Online Library
• Olivier Jolliet, Assumpció Antón, Anne-Marie Boulay, Francesco Cherubini, Peter Fantke, Annie Levasseur, Thomas E. McKone, Ottar Michelsen, Llorenç Milà i Canals, Masaharu Motoshita, Stephan Pfister, Francesca Verones, Bruce Vigon and Rolf Frischknecht, Global guidance on environmental life cycle impact assessment indicators: impacts of climate change, fine particulate matter formation, water consumption and land use, The International Journal of Life Cycle Assessment, 10.1007/s11367-018-1443-y, 23, 11, (2189-2207), (2018).
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• Shouzhang Peng and Zhi Li, Incorporation of potential natural vegetation into revegetation programmes for sustainable land management, Land Degradation & Development, 29, 10, (3503-3511), (2018).
  Wiley Online Library
• Kati Koponen, Sampo Soimakallio, Keith L. Kline, Annette Cowie and Miguel Brandão, Quantifying the climate effects of bioenergy – Choice of reference system, Renewable and Sustainable Energy Reviews, 10.1016/j.rser.2017.05.292, 81, (2271-2280), (2018).
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• Valentí Rull, Simon E. Connor and Rui B. Elias, Potential natural vegetation and pre‐anthropic pollen records on the Azores Islands in a Macaronesian context, Journal of Biogeography, 44, 11, (2437-2440), (2017).
  Wiley Online Library
• Imelda Somodi, Zsolt Molnár, Bálint Czúcz, Ákos Bede‐Fazekas, János Bölöni, László Pásztor, Annamária Laborczi and Niklaus E. Zimmermann, Implementation and application of multiple potential natural vegetation models – a case study of Hungary, Journal of Vegetation Science, 28, 6, (1260-1269), (2017).
  Wiley Online Library
• Péter Szabó, Petr Kuneš, Helena Svobodová‐Svitavská, Markéta Gabriela Švarcová, Lucie Křížová, Silvie Suchánková, Jana Müllerová and Radim Hédl, Using historical ecology to reassess the conservation status of coniferous forests in Central Europe, Conservation Biology, 31, 1, (150-160), (2016).
  Wiley Online Library
• Seth R. Fore and Michael J. Hill, Modeling the potential natural vegetation of Minnesota, USA, Ecological Informatics, 41, (116), (2017).
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• Maria Nordborg, Yaw Sasu-Boakye, Christel Cederberg and Göran Berndes, Challenges in developing regionalized characterization factors in land use impact assessment: impacts on ecosystem services in case studies of animal protein production in Sweden, The International Journal of Life Cycle Assessment, 22, 3, (328), (2017).
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• Viêt Cao, Manuele Margni, Basil D. Favis and Louise Deschênes, Choice of land reference situation in life cycle impact assessment, The International Journal of Life Cycle Assessment, 10.1007/s11367-016-1242-2, 22, 8, (1220-1231), (2016).
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• Manuel J. Steinbauer, Mohammad B. Uddin, Anke Jentsch and Carl Beierkuhnlein, Drivers for plant species diversity in a characteristic tropical forest landscape in Bangladesh, Landscape Research, 42, 1, (89), (2017).
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• Andrej Bončina, Matija Klopčič, Tina Simončič, Igor Dakskobler, Andrej Ficko and Andrej Rozman, A general framework to describe the alteration of natural tree species composition as an indicator of forest naturalness, Ecological Indicators, 77, (194), (2017).
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• O. V. Smirnova and N. A. Toropova, Potential vegetation and potential ecosystem cover, Biology Bulletin Reviews, 7, 2, (139), (2017).
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• Rosalie van Zelm, Marijn van der Velde, Juraj Balkovic, Mirza Čengić, Pieter M.F. Elshout, Thomas Koellner, Montserrat Núñez, Michael Obersteiner, Erwin Schmid and Mark A.J. Huijbregts, Spatially explicit life cycle impact assessment for soil erosion from global crop production, Ecosystem Services, (2017).
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• Benedetto Rugani and Duccio Rocchini, Boosting the use of spectral heterogeneity in the impact assessment of agricultural land use on biodiversity, Journal of Cleaner Production, 10.1016/j.jclepro.2016.09.018, 140, (516-524), (2017).
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• Chengcheng Gang, Yanzhen Zhang, Zhaoqi Wang, Yizhao Chen, Yue Yang, Jianlong Li, Jimin Cheng, Jiaguo Qi and Inakwu Odeh, Modeling the dynamics of distribution, extent, and NPP of global terrestrial ecosystems in response to future climate change, Global and Planetary Change, 10.1016/j.gloplacha.2016.12.007, 148, (153-165), (2017).
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• Xiaoni Liu, Baisen Zhang, Beverley Henry, Jinglan Zhang and Peter Grace, Assessing the impact of historical and future climate change on potential natural vegetation types and net primary productivity in Australian grazing lands, The Rangeland Journal, 10.1071/RJ17081, 39, 4, (387), (2017).
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• Karel Prach, Lubomír Tichý, Kamila Lencová, Martin Adámek, Tomáš Koutecký, Jiří Sádlo, Alena Bartošová, Jan Novák, Pavel Kovář, Alena Jírová, Petr Šmilauer and Klára Řehounková, Does succession run towards potential natural vegetation? An analysis across seres, Journal of Vegetation Science, 27, 3, (515-523), (2016).
  Wiley Online Library
• Vanessa M. Gabel, Matthias S. Meier, Ulrich Köpke and Matthias Stolze, The challenges of including impacts on biodiversity in agricultural life cycle assessments, Journal of Environmental Management, 181, (249), (2016).
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• Benoit Othoniel, Benedetto Rugani, Reinout Heijungs, Enrico Benetto and Cees Withagen, Assessment of Life Cycle Impacts on Ecosystem Services: Promise, Problems, and Prospects, Environmental Science & Technology, 50, 3, (1077), (2016).
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• Marko Kovač, Lado Kutnar and David Hladnik, Assessing biodiversity and conservation status of the Natura 2000 forest habitat types: Tools for designated forestlands stewardship, Forest Ecology and Management, 359, (256), (2016).
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• P Mairota, P Buckley, C Suchomel, K Heinsoo, K Verheyen, R Hédl, PG Terzuolo, R Sindaco and A Carpanelli, Integrating conservation objectives into forest management: coppice management and forest habitats in Natura 2000 sites, iForest - Biogeosciences and Forestry, 9, 4, (560), (2016).
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• Benedetto Rugani and Duccio Rocchini, Positioning of remotely sensed spectral heterogeneity in the framework of life cycle impact assessment on biodiversity, Ecological Indicators, 61, (923), (2016).
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• Markus A Meyer, Ralf Seppelt, Felix Witing and Joerg A Priess, Making environmental assessments of biomass production systems comparable worldwide, Environmental Research Letters, 11, 3, (034005), (2016).
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• Giovanni Strona, Achille Mauri, Joseph A. Veech, Günther Seufert, Jesus San-Miguel Ayanz, Simone Fattorini and Filippos A. Aravanopoulos, Far from Naturalness: How Much Does Spatial Ecological Structure of European Tree Assemblages Depart from Potential Natural Vegetation?, PLOS ONE, 11, 12, (e0165178), (2016).
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• D. Viciani, L. Lastrucci, F. Geri and B. Foggi, Gap analysis comparing protected areas with potential natural vegetation in Tuscany (Italy) and a GIS procedure to bridge the gaps, Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology, 150, 1, (62), (2016).
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• O. V. Chernova, I. M. Ryzhova and M. A. Podvezennaya, An experience in regional estimates of changes in soil carbon pools of the southern taiga and forest-steppe during the historical period, Eurasian Soil Science, 49, 8, (954), (2016).
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• Michael Curran, Danielle Maia de Souza, Assumpció Antón, Ricardo F. M. Teixeira, Ottar Michelsen, Beatriz Vidal-Legaz, Serenella Sala and Llorenç Milà i Canals, How Well Does LCA Model Land Use Impacts on Biodiversity?—A Comparison with Approaches from Ecology and Conservation, Environmental Science & Technology, 50, 6, (2782), (2016).
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• Maria Lindqvist, Ulrika Palme and Jan Paul Lindner, A comparison of two different biodiversity assessment methods in LCA—a case study of Swedish spruce forest, The International Journal of Life Cycle Assessment, 21, 2, (190), (2016).
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• Krystyna Stachura-Skierczyńska and Ziemowit Kosiński, Do factors describing forest naturalness predict the occurrence and abundance of middle spotted woodpecker in different forest landscapes?, Ecological Indicators, 10.1016/j.ecolind.2015.08.020, 60, (832-844), (2016).
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• Carola Cullum, Kevin H. Rogers, Gary Brierley and Ed T.F. Witkowski, Ecological classification and mapping for landscape management and science, Progress in Physical Geography, 10.1177/0309133315611573, 40, 1, (38-65), (2015).
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• Valentí Rull, Long‐term vegetation stability and the concept of potential natural vegetation in the Neotropics, Journal of Vegetation Science, 26, 3, (603-607), (2015).
  Wiley Online Library
• Danielle M. Souza, Ricardo F.M. Teixeira and Ole P. Ostermann, Assessing biodiversity loss due to land use with Life Cycle Assessment: are we there yet?, Global Change Biology, 21, 1, (32-47), (2014).
  Wiley Online Library
• Rodrigo A. F. Alvarenga, Karl-Heinz Erb, Helmut Haberl, Sebastião R. Soares, Rosalie van Zelm and Jo Dewulf, Global land use impacts on biomass production—a spatial-differentiated resource-related life cycle impact assessment method, The International Journal of Life Cycle Assessment, 20, 4, (440), (2015).
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• Bruno Foggi, Lorenzo Lastrucci, Francesco Geri and Duccio Rocchini, Recent Landscape Changes on a Small Mediterranean Island, Landscape Research, 40, 4, (437), (2015).
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• Giuseppe Bazan, Pasquale Marino, Riccardo Guarino, Gianniantonio Domina and Rosario Schicchi, Bioclimatology and Vegetation Series in Sicily: A Geostatistical Approach, Annales Botanici Fennici, 52, 1-2, (1), (2015).
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• Laura de Baan, Michael Curran, Carlo Rondinini, Piero Visconti, Stefanie Hellweg and Thomas Koellner, High-Resolution Assessment of Land Use Impacts on Biodiversity in Life Cycle Assessment Using Species Habitat Suitability Models, Environmental Science & Technology, 49, 4, (2237), (2015).
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• C. Hainz-Renetzeder, A. Schneidergruber, M. Kuttner and T. Wrbka, Assessing the potential supply of landscape services to support ecological restoration of degraded landscapes: A case study in the Austrian-Hungarian trans-boundary region of Lake Neusiedl, Ecological Modelling, 10.1016/j.ecolmodel.2014.07.001, 295, (196-206), (2015).
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• Sampo Soimakallio, Annette Cowie, Miguel Brandão, Göran Finnveden, Tomas Ekvall, Martin Erlandsson, Kati Koponen and Per-Erik Karlsson, Attributional life cycle assessment: is a land-use baseline necessary?, The International Journal of Life Cycle Assessment, 20, 10, (1364), (2015).
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• Ottar Michelsen and Jan Lindner, Why Include Impacts on Biodiversity from Land Use in LCIA and How to Select Useful Indicators?, Sustainability, 7, 12, (6278), (2015).
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• Don Faber-Langendoen, Todd Keeler-Wolf, Del Meidinger, Dave Tart, Bruce Hoagland, Carmen Josse, Gonzalo Navarro, Serguei Ponomarenko, Jean-Pierre Saucier, Alan Weakley and Patrick Comer, EcoVeg: a new approach to vegetation description and classification, Ecological Monographs, 84, 4, (533-561), (2014).
  Wiley Online Library
• Steven P. Sylvester, Mitsy D.P.V. Sylvester and Michael Kessler, Inaccessible ledges as refuges for the natural vegetation of the high Andes, Journal of Vegetation Science, 25, 5, (1225-1234), (2014).
  Wiley Online Library
• Gaetano Di Pasquale, Emilia Allevato, Anna Cocchiararo, Daniela Moser, Marco Pacciarelli and Antonio Saracino, Late Holocene persistence of Abies alba in low‐mid altitude deciduous forests of central and southern Italy: new perspectives from charcoal data, Journal of Vegetation Science, 25, 5, (1299-1310), (2014).
  Wiley Online Library
• David A. Keith, Jane Elith and Christopher C. Simpson, Predicting distribution changes of a mire ecosystem under future climates, Diversity and Distributions, 20, 4, (440-454), (2014).
  Wiley Online Library
• Ottar Michelsen, James E. McDevitt and Carla R. V. Coelho, A comparison of three methods to assess land use impacts on biodiversity in a case study of forestry plantations in New Zealand, The International Journal of Life Cycle Assessment, 19, 6, (1214), (2014).
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• Fabio Attorre, Fabio Francesconi, Michele De Sanctis, Marco Alfò, Francesca Martella, Roberto Valenti and Marcello Vitale, Classifying and Mapping Potential Distribution of Forest Types Using a Finite Mixture Model, Folia Geobotanica, 49, 3, (313), (2014).
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• Severin D. H. Irl, Manuel J. Steinbauer, Jana Messinger, Gesche Blume-Werry, Ángel Palomares-Martínez, Carl Beierkuhnlein and Anke Jentsch, Burned and Devoured-Introduced Herbivores, Fire, and the Endemic Flora of the High-Elevation Ecosystem on La Palma, Canary Islands, Arctic, Antarctic, and Alpine Research, 46, 4, (859), (2014).
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• Antonin Kusbach, Helga Van Miegroet, Janis L. Boettinger and James N. Long, Vegetation geo-climatic zonation in the rocky mountains, Northern Utah, USA, Journal of Mountain Science, 11, 3, (656), (2014).
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• Birgit Reger, Tim Häring and Jörg Ewald, The TRM Model of Potential Natural Vegetation in Mountain Forests, Folia Geobotanica, 49, 3, (337), (2014).
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• Paula Quinteiro, Ana Cláudia Dias, Leandro Pina, Belmira Neto, Bradley G. Ridoutt and Luís Arroja, Addressing the freshwater use of a Portuguese wine (‘vinho verde’) using different LCA methods, Journal of Cleaner Production, 10.1016/j.jclepro.2014.01.017, 68, (46-55), (2014).
  Crossref
• Benjamin S. Ramage, Lara A. Roman and Jeffrey S. Dukes, Relationships between urban tree communities and the biomes in which they reside, Applied Vegetation Science, 16, 1, (8-20), (2012).
  Wiley Online Library
• Otto Wildi, Striving for general validity: a huge sample reveals faint traces in forests, Journal of Vegetation Science, 24, 1, (4-6), (2012).
  Wiley Online Library
• Francisca C. Aguiar, Jorge Orestes Cerdeira, Maria João Martins and Maria Teresa Ferreira, Riparian forests of Southwest Europe: are functional trait and species composition assemblages constrained by environment?, Journal of Vegetation Science, 24, 4, (628-638), (2012).
  Wiley Online Library
• Stephen T. Jackson, Natural, potential and actual vegetation in North America, Journal of Vegetation Science, 24, 4, (772-776), (2012).
  Wiley Online Library
• Danielle Maia de Souza, Dan F. B. Flynn, Fabrice DeClerck, Ralph K. Rosenbaum, Henrique de Melo Lisboa and Thomas Koellner, Land use impacts on biodiversity in LCA: proposal of characterization factors based on functional diversity, The International Journal of Life Cycle Assessment, 18, 6, (1231), (2013).
  Crossref
• Otto Wildi, Bibliography, Data Analysis in Vegetation Ecology, (281-291), (2013).
  Wiley Online Library
• Laura de Baan, Rob Alkemade and Thomas Koellner, Land use impacts on biodiversity in LCA: a global approach, The International Journal of Life Cycle Assessment, 10.1007/s11367-012-0412-0, 18, 6, (1216-1230), (2012).
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• Luc De Keersmaeker, Nele Rogiers, Kris Vandekerkhove, Bruno De Vos, Bart Roelandt, Johnny Cornelis, An De Schrijver, Thierry Onkelinx, Arno Thomaes, Martin Hermy and Kris Verheyen, Application of the Ancient Forest Concept to Potential Natural Vegetation Mapping in Flanders, A Strongly Altered Landscape in Northern Belgium, Folia Geobotanica, 48, 2, (137), (2013).
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• Hagen S. Fischer, Susanne Winter, Ernst Lohberger, Hans Jehl and Anton Fischer, Improving Transboundary Maps of Potential Natural Vegetation Using Statistical Modeling Based on Environmental Predictors, Folia Geobotanica, 48, 2, (115), (2013).
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• Montserrat Núñez, Stephan Pfister, Philippe Roux and Assumpció Antón, Estimating Water Consumption of Potential Natural Vegetation on Global Dry Lands: Building an LCA Framework for Green Water Flows, Environmental Science & Technology, 10.1021/es403159t, 47, 21, (12258-12265), (2013).
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• Thomas Koellner, Laura de Baan, Tabea Beck, Miguel Brandão, Barbara Civit, Manuele Margni, Llorenç Milà i Canals, Rosie Saad, Danielle Maia de Souza and Ruedi Müller-Wenk, UNEP-SETAC guideline on global land use impact assessment on biodiversity and ecosystem services in LCA, The International Journal of Life Cycle Assessment, 18, 6, (1188), (2013).
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• HongYan Liu and Yi Yin, Response of forest distribution to past climate change: An insight into future predictions, Chinese Science Bulletin, 10.1007/s11434-013-6032-7, 58, 35, (4426-4436), (2013).
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• Javier Loidi and Federico Fernández‐González, Potential natural vegetation: reburying or reboring?, Journal of Vegetation Science, 23, 3, (596-604), (2012).
  Wiley Online Library
• Imelda Somodi, Zsolt Molnár and Jörg Ewald, Towards a more transparent use of the potential natural vegetation concept – an answer to Chiarucci et al., Journal of Vegetation Science, 23, 3, (590-595), (2012).
  Wiley Online Library
• Juan M. Rubiales, Javier Ezquerra, Castor Muñoz Sobrino, María M. Génova, Luis Gil, Pablo Ramil-Rego and Fernando Gómez Manzaneque, Holocene distribution of woody taxa at the westernmost limit of the Circumboreal/Mediterranean boundary: Evidence from wood remains, Quaternary Science Reviews, 33, (74), (2012).
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• Yohannes Kidane, Reinhold Stahlmann and Carl Beierkuhnlein, Vegetation dynamics, and land use and land cover change in the Bale Mountains, Ethiopia, Environmental Monitoring and Assessment, 184, 12, (7473), (2012).
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• Lars Østbye Hemsing and Anders Bryn, Three methods for modelling potential natural vegetation (PNV) compared: A methodological case study from south-central Norway, Norsk Geografisk Tidsskrift - Norwegian Journal of Geography, 66, 1, (11), (2012).
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• Jutta Kapfer, Volker Audorff, Carl Beierkuhnlein and Eduard Hertel, Do bryophytes show a stronger response than vascular plants to interannual changes in spring water quality?, Freshwater Science, 31, 2, (625), (2012).
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• Werner Rolf, Roman Lenz and David Peters, Development of a quantitative ‘bioassay’ approach for ecosystem mapping, International Journal of Biodiversity Science, Ecosystem Services & Management, 10.1080/21513732.2012.686121, 8, 1-2, (71-79), (2012).
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• Torsten Bittner, Anja Jaeschke, Björn Reineking and Carl Beierkuhnlein, Comparing modelling approaches at two levels of biological organisation – Climate change impacts on selected Natura 2000 habitats, Journal of Vegetation Science, 22, 4, (699-710), (2011).
  Wiley Online Library
• Wolfgang Falk and Karl H. Mellert, Species distribution models as a tool for forest management planning under climate change: risk evaluation of Abies alba in Bavaria, Journal of Vegetation Science, 22, 4, (621-634), (2011).
  Wiley Online Library
• Carl Beierkuhnlein, Daniel Thiel, Anke Jentsch, Evelin Willner and Juergen Kreyling, Ecotypes of European grass species respond differently to warming and extreme drought, Journal of Ecology, 99, 3, (703-713), (2011).
  Wiley Online Library
• J. Kreyling, A. Jentsch and C. Beierkuhnlein, Stochastic trajectories of succession initiated by extreme climatic events, Ecology Letters, 14, 8, (758-764), (2011).
  Wiley Online Library
• János Bölöni, Zoltán Botta‐Dukát, Eszter Illyés and Zsolt Molnár, Hungarian landscape types: classification of landscapes based on the relative cover of (semi‐) natural habitats, Applied Vegetation Science, 14, 4, (537-546), (2011).
  Wiley Online Library
• E. Biondi, Phytosociology today: Methodological and conceptual evolution, Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology, 145, sup1, (19), (2011).
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• Milan Chytrý, Alessandro Chiarucci, Meelis Pärtel and J. Bastow Wilson, Journal development, vegetation survey and the restoration of invaded ecosystems, Applied Vegetation Science, 14, 1, (1-5), (2011).
  Wiley Online Library
• W.H. Maes, T. Pashuysen, A. Trabucco, F. Veroustraete and B. Muys, Does energy dissipation increase with ecosystem succession? Testing the ecosystem exergy theory combining theoretical simulations and thermal remote sensing observations, Ecological Modelling, 10.1016/j.ecolmodel.2011.08.028, 222, 23-24, (3917-3941), (2011).
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• Víctor Garzón-Machado, Rüdiger Otto and Marcelino José del Arco Aguilar, Bioclimatic and vegetation mapping of a topographically complex oceanic island applying different interpolation techniques, International Journal of Biometeorology, 10.1007/s00484-013-0670-y, (2013).
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• Jurij Diaci, Dusan Rozenbergar, Gal Fidej and Thomas A. Nagel, Challenges for Uneven-Aged Silviculture in Restoration of Post-Disturbance Forests in Central Europe: A Synthesis, Forests, 10.3390/f8100378, 8, 10, (378), (2017).
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• Xiaojun Kou, Qin Li, Carl Beierkuhnlein, Yiheng Zhao and Shirong Liu, A New Tool for Exploring Climate Change Induced Range Shifts of Conifer Species in China, PLoS ONE, 10.1371/journal.pone.0098643, 9, 9, (e98643), (2014).
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• Emke Vrasdonk, Ulrika Palme and Tommy Lennartsson, Reference situations for biodiversity in life cycle assessments: conceptual bridging between LCA and conservation biology, The International Journal of Life Cycle Assessment, 10.1007/s11367-019-01594-x, (2019).
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