Agronomic and Economic Performance of Genetically Modified and Conventional Maize

The database contains 176 references relating to the Safety and Benefits of Biotechnology and "Herbicide Tolerance".

References relating to "Herbicide Tolerance":

  1. Agronomic and Economic Performance of Genetically Modified and Conventional Maize
    (2018) Hrčková K, Mihalčík P, Žák S, Hašana R, Ondreičková K, Kraic J
  2. The farm level economic and environmental contribution of Intacta soybeans in South America: the first five years
    (2018) Brookes G
  3. No subchronic toxicity of multiple herbicide-resistant soybean FG72 in Sprague-Dawley rats by 90-days feeding study
    (2018) Xie Z, Zou S, Xu W, Liu X, Huang K, He X
  4. Three European studies have disproved Gilles-Éric Séralini’s widely circulated claims that genetically modified maize (corn) induces tumors in rats.
    (2018) Various authors
  5. The economic and environmental cost of delayed GM crop adoption: The case of Australia’s GM canola moratorium
    (2018) Biden S, Smyth SJ, Hudson D
  6. Impact of genetically engineered maize on agronomic, environmental and toxicological traits: a meta-analysis of 21 years of field data
    (2018) Pellegrino E, Bedini S, Nuti M, Ercoli L
  7. Assessing the Environmental Safety of Transgenic Plants: Honey Bees as a Case Study
    (2017) Ricroch AE, Akkoyunlu S, Martin-Laffon J, Kuntz Marcel
  8. The contribution of glyphosate to agriculture and potential impact of restrictions on use at the global level
    (2017) Brookes G, Taheripour F, Tyner WE
  9. Toxicologic Evaluation of Chronic Feeding of Glyphosate-Resistant Transgenic Soybean GTS40-3-2 Meal to Rats
    (2018) Yuan J, Tang Z, Zhao J, Shi Z, Wang J
  10. The contribution of glyphosate to agriculture and potential impact of restrictions on use at the global level
    (2017) Brookes G, Taheripour F, Tyner WE
  11. Toxicologic evaluation of chronic feeding of glyphosateresistant transgenic soybean GTS40-3-2 meal to rats
    (2017) Yuan J, Tang Z, Zao J, Shi Z, Wang J
  12. Dicamba-Tolerant Soybeans (Glycine max L.) MON 87708 and MON 87708 × MON 89788 Are Compositionally Equivalent to Conventional Soybean
    (2017) Taylor M, Bickel A, Mannion R, Bell E, Harrigan GC
  13. Assessing the potential economic benefits to farmers from various GM crops becoming available in the European Union by 2025: Results from an expert survey
    (2017) Jones PJ, McFarlane ID, Park JR, Tranter RB
  14. Stacking transgenic event DAS-Ø15Ø7-1 alters maize composition less than traditional breeding
    (2017) Herman RA, Fast Bj, Scherer PN, Brune AM, de Cerqueira DT, Schafer BW, Ekmay RD, Harrigan GG, Bradfisch GA
  15. Effects of genetically modified maize events expressing Cry34Ab1, Cry35Ab1, Cry1F, and CP4 EPSPS proteins on arthropod complex food webs
    (2017) Pálinkás Z, Kiss J, Zalai M, Szénási A, Dorner Z, North S, Woodward G, Balog A
  16. One-year oral toxicity study on a genetically modified maize MON810 variety in Wistar Han RCC rats (EU 7th Framework Programme project GRACE)
    (2016) Zeljenkova D, Alacova R, Ondrejkova J, Ambrusova K, Bartusova M, Kebis A, Kovrinznych J, Rollerova E, Szabova E, Wimmerova S, Cernak M, Krivosikova Z, Kuricova M, Liskova A, Sputstova V
  17. Impact of long-term cropping of glyphosate-resistant transgenic soybean [Glycine max (L.) Merr.] on soil microbiome
    (2016) Silva AP, Nakatani AS, Cantao ME, Vasconcelos ATR, Visentainer JV, Hungria M
  18. The Adoption of Genetically Engineered Alfalfa, Canola and Sugarbeets in the United States
    (2016) Fernandez-Cornejo J, Wechsler SJ, Milkove D
  19. Twenty Years of GM crops in Argentine Agriculture
    (2016) Trigo EJ
  20. How well will stacked transgenic pest/herbicide resistances delay pests from evolving resistance?
    (2016) Gressel J, Gassmann AJ, Owen MDK