Presence of Cry1Ab in the Bt maize – aphid (Rhopalosiphum maidis) – ladybeetle (Propylea japonica) system has no adverse effects on insect biological parameters

The database contains 551 references relating to the Safety and Benefits of Biotechnology and "Insect Resistance".

References relating to "Insect Resistance":

  1. Presence of Cry1Ab in the Bt maize – aphid (Rhopalosiphum maidis) – ladybeetle (Propylea japonica) system has no adverse effects on insect biological parameters
    (2019) Shu Y, Du Y, Wang J
  2. Environmental impacts of genetically modified (GM) crop use 1996–2018: impacts on pesticide use and carbon emissions
    (2020) Brookes G, Barfoot P
  3. Agronomic and compositional assessment of genetically modified DP23211 maize for corn rootworm control
    (2020) Anderson JA, Mickelson J, Challender M, Moellring E, Sult T, TeRonde S, Wang Y, Maxwell CA
  4. Impact of genetically modified crops on rhizosphere microorganisms and processes: A review focusing on Bt cotton
    (2020) Mandal A, Sarkar B, Owens G, Thakur JK, Manna MC, Niazi NK, Jayaraman S, Patra AK
  5. Stacked Bt Proteins Pose No New Risks to Nontarget Arthropods
    (2020) Romeis J, Meissle M
  6. Transgenic cotton and farmers’ health in Pakistan
    (2019) Kouser S, Spielman DJ, Qaim M
  7. Effect of Bt Corn (Bt 38) Cultivation on Community Structure of Collembola
    (2020) Chang L, Song X, Wang B, Wu D, Reddy GVP
  8. Testing Safety of Genetically Modified Products of Rice: Case Study on Sprague Dawley Rats
    (2019) Shirdeli M, Orlov YL, Eslami G, Hajimohammadi B, Tabikhanova LE, Ehrampoush MH, Rezvani ME, Fallahzadeh H, Zandi H, Hosseini S, Ahmadian S, Mortazavi S, Fallahi R, Asadi-Yousefabad S
  9. Potential Economic Benefit and Producers’ Willingness to Adopt Bt-Brinjal in Bangladesh: An Ex-Ante Analysis
    (2019) Mamun MD, Alam MJ, Dilshad EZ, Swarup B
  10. Ecotoxicological effects of transgenic mCry1Ac maize (BT799) on zebrafish
    (2019) Dong SS, Zhang DN, Zhang ZH, Yu CG, Liu Y, Zhao HM, Wang CY
  11. Genetically modified (GM) crop use in Colombia: farm level economic and environmental contributions
    (2020) Brookes G
  12. Effect of Cry1Ie Bt Maize on Carbon Source Metabolism of Rhizosphere Microorganisms
    (2019) Liang J, Xin L, Luan Y, Song X, Zhang Z
  13. Cry2A rice did not affect the interspecific interactions between two rice planthoppers, Nilaparvata lugens, and Sogatella furcifera
    (2019) Dang C, Sun C, Lu Z, Zhong F, wang F, Wang Q, Ye G
  14. Species Richness and Community Composition of Ants and Beetles in Bt and non-Bt Maize Fields
    (2019) Fernandes MG, Costa EN, Dutra CC, Raizer J
  15. No impact of transgenic cry1Ie maize on the diversity, abundance and composition of soil fauna in a 2-year field trial
    (2019) Fan C, Wu F, Dong J, Wang B, Yin J, Song X
  16. Effects of Cry toxins on non-target soil bacteria during a 2-year follow up study
    (2019) Yaqoob A, Shahid AA, Salisu IB, Azam S, Ahmed M, Rao AQ
  17. Insect Diversity in Conventional and Bt Cottons in the Comarca Lagunera, Mexico
    (2019) Ávila-Rodríguez V, García-Hernández JL, Nava-Camberos U, Martínez-Carrillo JL, Blanco CA
  18. The effect of Bt Cry9Ee toxin on honey bee brood and adults reared in vitro, Apis mellifera (Hymenoptera: Apidae)
    (2019) Dai P, Wang M, Geng L, Yan Z, Yang Y, Guo L, Ma S, Diao Q
  19. Bt Brinjal in Bangladesh: The First Genetically Engineered Food Crop in a Developing Country
    (2019) Shelton AM, Hossain J, Paranjape V, Prodhan ZH, Azad AK, Majumder R, Sarwer SH, Hossain A
  20. Comparing the Immunity of Genetically and Non-Genetically Modified Rice regarding the Possibility of Gene Transferring to Blood of a Laboratory Animal
    (2019) Mohammadi BH, Elslami G, Aalaei M, Ehrampoush MH, Rezvani ME, Fallahzadeh H, Shirdeli M