non-target effects

The database contains 87 references relating to the Safety and Benefits of Biotechnology and "non-target effects".

References relating to "non-target effects":

1. Bt-maize in neotropical arthropod food webs: community-stress or lack thereof?
   (2023) Zuim V, Godoi CTD, Marques VM, Haro MM, Gontijo LM, Guedes RNC
2. Does the growing of Bt maize change abundance or ecological function of non-target animals compared to the growing of non-GM maize? A systematic review
   (2022) Meissle M, Naranjo SE, Romeis J
3. Biochemical analyses demonstrate that Bt maize has no adverse effects on Eisenia fetida
   (2022) Wu F, Jiang Z, Wang B, Yin J, Song X
4. Impact of transgenic insect-resistant maize HGK60 with Cry1Ah gene on community components and biodiversity of arthropods in the fields
   (2022) Chen Y, Ren M, Pan L, Guan X, Tao J
5. Impact assessment of genetically modified herbicide-tolerant cotton on arthropod communities
   (2022) Li D, Zhu X, Zhang K, Wang L, Zhang R, Liang C, Luo J, Cui J
6. Assessment of the potential toxicity of insecticidal compounds to Peristenus spretus, a parasitoid of mirid bugs
   (2022) Zhao M, Li Y-H, Niu L, Chen L, Liang G
7. Unintended changes in transgenic maize cause no nontarget effects
   (2022) Wang Y, Liu Q, Song X, Yang x, Han L, Romeis J, Li Y
8. Integrative analysis identifies the safety of transgenic Cry1Ab rice to non-target spider Pardosa pseudoannulata
   (2022) LV B, Zhou Y, Peng Y, Wang Z, Song Q
9. Transgenic insect-resistant Bt cotton expressing Cry1Ac/1Ab does not harm the insect predator Geocoris pallidipennis
   (2022) Zhang M, Ma Y, Luo J, Ji J, Gao X, Wu C, Zhu X, Wang L, Zhang K, Li D, Niu L, Cui J
10. Transgenic Cry1Ac + CpTI cotton does not compromise parasitoid-mediated biological control: An eight-year case study
    (2021) Yang F, Liu B, Zhu Y, Desneux N, Liu L, Li C, Wyckhuys KA, Lu Y
11. Field efficacy of Bt cotton containing events DAS-21023-5 × DAS-24236-5 × SYN-IR102-7 against lepidopteran pests and impact on the non-target arthropod community in Brazil
    (2021) Marques LH, Lepping M, Castro BA, Santos AC, Rossetto J, Nunes MZ, et al.
12. Diversity of predatory arthropods in Bt and nonBt cotton fields of Nalgonda district, Telangana state, India
    (2021) Mallesh M, Sravanthy Ch
13. Consumption of miRNA-Mediated Insect-Resistant Transgenic Rice Pollen Does Not Harm Apis mellifera Adults
    (2021) Chen J, Wang H, Yang x, Chen G, Du L, Chen H, Li Y, Peng Y, Han L
14. Testing of Chrysoperla carnea (S) against Bimisia tabaci in Bt. cotton crop under field conditions
    (2020) Soomro AS, Mazari SN, Soomro A S
15. Abundance and diversity of arthropods in transgenic Bt and non-Bt cotton fields under Indian conditions
    (2021) Kaur J, Aggarwal, N, Kular, JS
16. Effects of Bt-Cry1Ah1 Transgenic Poplar on Target and Non-Target Pests and Their Parasitic Natural Enemy in Field and Laboratory Trials
    (2020) Wang P, Wei H, Sun W, Li L, Zhou P, Li D, Qiang Z
17. Transgenic Cry1Ac/CpTI cotton assessment finds no detrimental effects on the insect predator Chrysoperla sinica
    (2021) Liu F, Luo J, Zhu X, Zhao C, Niu L, Cui J
18. No Tangible Effects of Field-Grown Cisgenic Potatoes on Soil Microbial Communities
    (2020) Krause SMB, Näther A, Cortes VE, Mullins E, Kessel GJT, Lotz LAP, Tebbe CC
19. The effects of phytase transgenic maize on the community components and diversity of arthropods
    (2020) Wang M, Guan X
20. Impact of insect‐resistant transgenic rice on above‐ground non‐target arthropods in Korea
    (2020) Amin Md R, Oh S-D, Bae E, Park S-Y, Suh SJ