SEARCH

SEARCH BY CITATION

REFERENCES

  • 1
    Charles D, Lords of the Harvest: Biotech, Big Money, and the Future of Food. Perseus Publishing, Cambridge, MA, 348 pp. (2001).
  • 2
    Oerke E-C, Crops losses to pests. J Agric Sci 144:3143 (2006).
  • 3
    Ziska LH and Dukes JS, Weed Biology and Climate Change. Wiley-Blackwell, Oxford, UK, 235 pp. (2011).
  • 4
    World Population Prospects, the 2010 Revision. [Online]. Population Division, Population Estimates and Projections Section, United Nations Department of Economic and Social Affairs, Rome (2011). Available: http://esa.un.org/unpd/wpp/index.htm [7 April 2013].
  • 5
    Dill GM, CaJacob CA and Padgette SR, Glyphosate-resistant crops: adoption, use and future considerations. Pest Manag Sci 64:326331 (2008).
  • 6
    Heap IM, International Survey of Herbicide Resistant Weeds. [Online]. Weed Science Society of America (2013). Available: http://www.weedscience.org. [1 November 2013].
  • 7
    Duke SO and Powles SB, Glyphosate: a once-in-a-century herbicide. Pest Manag Sci 64:319325 (2008).
  • 8
    Green JM, The benefits of herbicide-resistant crops. Pest Manag Sci 68:13231331.
  • 9
    Duke SO, Why have no new herbicide modes of action appeared in recent years? Pest Manag Sci 68:505512 (2012).
  • 10
    The World of Herbicides, According to HRAC Classification on the Mode of Action 2010. [Online]. Herbicide Resistance Action Committee. Available: http://www.hracglobal.com/Portals/5/moaposter.pdf [accessed 1 November 2013].
  • 11
    Vencill WK, Nichols RL, Webster TM, Soteres JK, Mallory-Smith C, Burgos NR et al., Herbicide resistance: toward an understanding of resistance development and the impact of herbicide-resistant crops. Weed Sci 60:230 (2012).
  • 12
    Phillips McDougall AgriService. [Online]. Available: http://phillipsmcdougall.com [accessed 7 July 2011].
  • 13
    Kraehmer H, Innovation: changing trends in herbicide discovery. Outlooks Pest Manag 23:115118 (2012).
  • 14
    Gianessi LP, The increasing importance of herbicides in worldwide crop production. Pest Manag Sci 69:10991105 (2013).
  • 15
    Gerwick BC, Thirty years of herbicide discovery: surveying the past and contemplating the future. Agrow (Silver Jubilee Edition) VIIIX (2010).
  • 16
    Appleby AP, A history of weed control in the United States and Canada – a sequel. Weed Sci 53:762768 (2005).
  • 17
    Wittenbach VA and Abell LM, Inhibitors of valine, leucine, and isoleucine biosynthesis, in Plant Amino Acids, ed. by Singh BK. Marcel Dekker, New York, NY, pp. 385416 (1999).
  • 18
    Devine MD, Why are there not more herbicide-resistant crops? Pest Manag Sci 61:312317 (2005).
  • 19
    Green JM and Owen MDK, Herbicide-resistant crops: utilities and limitations for herbicide-resistant weed management. J Agric Food Chem 59:58195829 (2011).
  • 20
    James C, Global status of commercialized biotech/GM crops: 2012. Brief No. 44, ISAAA, Ithaca, NY (2012).
  • 21
    2013 Crop Acreage. [Online]. United States Department of Agriculture – National Agricultural Statistics Service (USDA-ARS) (2013). Available: http://usda01.library.cornell.edu/usda/current/Acre/Acre-06-28-2013.pdf [2 July 2013].
  • 22
    Frisvold GB, Hurley TM and Mitchell PD, Overview: herbicide resistant crops – diffusion, benefits, pricing, and resistance management. AgBioForum 12:244248 (2009).
  • 23
    Brookes G and Barfoot P, Global impact of biotech crops: environmental effects 1996–2009. GM Crops 2:3449 (2011).
  • 24
    Benbrook CM, Impacts of genetically engineered crops on pesticide use in the U.S. – the first sixteen years. Environ Sci Eur 24:24 (2012).
  • 25
    Atkins JM, Foresman C, Vitolo DB, Clap MJL and Heylings JR, Gramoxone® Inteon: innovative formulation technology to reduce hazard potential. Abstr Weed Sci Soc Am 45:363 (2005).
  • 26
    Baltazar MT, Dinis-Oliveira RJ, Guilhermino L, Bastos M, Duarte JA and Carvalho R, New formulation of paraquat with lysine acetylsalicylate with low mammalian toxicity and effective herbicidal activity. Pest Manag Sci 69:553558 (2013).
  • 27
    Duke SO and Powles SB, Glyphosate-resistant crops and weeds: now and in the future. AgBioForum 12:346357 (2009).
  • 28
    Green JM, Evolution of glyphosate-resistant crop technology. Weed Sci 57:108117 (2009).
  • 29
    2012 Agricultural Chemical Use Survey – May 2015. [Online]. United States Department of Agriculture – National Agricultural Statistics Service (USDA-ARS) (2013). Available: http://www.nass.usda.gov/Surveys/Guide_to_NASS_Surveys/Chemical_Use/ChemUseHighlights-Soybeans-2012.pdf [3 June 2013].
  • 30
    Castelani P, Adjuvants and glyphosate. Formul Sci 2:1013 (2013).
  • 31
    Powles SB, Evolved glyphosate-resistant weeds around the world: lessons to be learnt. Pest Manag Sci 64:360365 (2008).
  • 32
    Young BG, Young JM, Matthews JL, Owen MDK, Zelaya IA, Hartzler RG et al., Soybean developments and yield as affected by three postemergence herbicides. Agronomy J 95:11521156 (2003).
  • 33
    Bell MS, Hager AG and Tranel PJ, Multiple resistance to herbicides from four site-of-action groups in waterhemp (Amaranthus tuberculatus). Weed Sci 61:460468 (2013).
  • 34
    Green JM, Outlook on weed management in herbicide-resistant crops: need for diversification. Outlooks Pest Manag 22:100104 (2011).
  • 35
    Norsworthy JK, Ward S, Shaw D, Llewellyn R, Nichols R, Webster TM et al., Reducing the risks of herbicide resistance: best management practices and recommendations. Weed Sci 60:3162 (2012).
  • 36
    Fraser K, Glyphosate Resistant Weeds – Intensifying. [Online]. Stratus Agri-Marketing (2013). Available: http://www.stratusresearch.com/blog07.htm [11 November 2013].
  • 37
    Green JM and Castle LA, Transitioning from single to multiple herbicide resistant crops, in Glyphosate Resistance in Crops and Weeds: History, Development, and Management, ed. by Nandula VK. Wiley, Hoboken, NJ, pp. 6791 (2010).
  • 38
    Que Q, Chilton M-DM, de Fontes CM, He C, Nuccio M, Zhu T et al., Trait stacking in transgenic crops: challenges and opportunities. GM Crops 1:220229 (2010).
  • 39
    Service RF, What happens when weed killers stop killing? Science 341:1329 (2013).
  • 40
    Behrens MR, Mutlu N, Cjalrabprtu S, Dumitru R, Jiang WZ, LaVallee BJ et al., Dicamba resistance: enlarging and preserving biotechnology-based weed management strategies. Science (Wash) 316:11851188 (2007).
  • 41
    Wright TR, Guomin S, Walsh TA, Lira JM, Cui C, Song P et al., Robust crop resistance to broadleaf and grass herbicides provided by aryloxyalkanoate dioxygenase transgenes. PNAS 107:20 24020 245 (2010).
  • 42
    Li M, Tank H, Kennedy A, Zhang H, Downer B, Ouse D et al., Enlist Duo herbicide: a novel 2,4-D plus glyphosate premix formulation with low potential for off-target movement, in Pesticide Formulations and Delivery Systems. Vol. 32. Innovating Legacy Products for New Uses, ed. by Bernards ML. American Society for Testing Materials International, West Conshohocken, PA, pp. 125161 (2013).
  • 43
    Allen J, Hinz J, Essner R, Fischer J and Van Wert S, Introducing a new soybean event with glyphosate and HPPD tolerance. Abstr Weed Sci Soc Am 52:190 (2012).
  • 44
    Miller B, Manley BA, Terpstra K, Vail G, Silverstone A, Allen J et al., Development of next generation herbicide tolerant traits to enable enhanced weed management. Abstr Weed Sci Soc Am 53:279 (2013).
  • 45
    Dayan FE, Owens DK and Duke SO, Rationale for a natural products approach to herbicide discovery. Pest Manag Sci 68:519528 (2012).
  • 46
    Duke SO, A time for herbicide discovery. Pest Manag Sci 68:493 (2012).
  • 47
    Harker KN, O'Donovan JT, Blackshaw RE, Beckie HJ, Mallory-Smith C and Maxwell BD, Our view. Weed Sci 60:143144 (2012).
  • 48
    Hoagland RE, Teaster ND and Boyette CD, Bioherbicidal effects of Myrothecium verrucaria on glyphosate-resistant and -susceptible Palmer amaranth biotypes. Allelopathy J 31:367376 (2013).
  • 49
    Biopesticides. [Online]. Agrow (2013). Available: www.agrow.com [accessed 3 June 2013].
  • 50
    Sammons RD, Wang D, Duncan B, Griffith G, Kendig JA and Findley DA, Strategies for countering herbicide resistance. Abstr Weed Sci Soc Am 53:364 (2013).
  • 51
    López-Arrendondo DL and Herrera-Estrella L, Engineering phosphorus metabolism in plants to produce a dual fertilization and weed control system. Nature Biotechnology 30:889893 (2012).
  • 52
    Norris RF, Weed fecundity: current status and future needs. Crop Prot 26:182188 (2007).
  • 53
    Walsh MJ and Powles SB, Management strategies for herbicide-resistant populations in Australian dryland crop production systems. Weed Technol 52:332338 (2007).
  • 54
    Walsh MJ, Harrington RB and Powles SB, Harrington seed destructor: a new nonchemical weed control tool for global grain crops. Crop Sci 52:13431347 (2012).
  • 55
    Busi R, Vila-Aiub MM, Beckie HJ, Gaines TA, Goggin DE, Kaundun SS et al., Herbicide-resistant weeds: from research and knowledge to future needs. Evolut Applic 6:12181221 (2013).