Table 2. Articles selected by title and abstract
no / Article / DatabaseJ Fernandez-Cornejo, S Jans, M Smith (1998). Issues in the economics of pesticide use in agriculture: A review of the empirical evidence. Applied Economic Perspectives and Policy 20(2): 462-488. / HighWire Press
J Huang, R Hu, S Rozelle, C Pray (2005). Insect-resistant GM rice in farmers' fields: Assessing productivity and health effects in China. Science 308(5722): 688-690. / -
AM Mannion, S Morse (2012). Biotechnology in agriculture: Agronomic and environmental considerations and reflections based on 15 years of GM crops. Progress in Physical Geography 36: 747-763. / -
S Morse, AM Mannion (2009). Can genetically modified cotton contribute to sustainable development in Africa? Progress in Development Studies 9: 225-247. / -
K Anderson, LA Jackson (2005). Some implications of GM food technology policies for sub-Saharan Africa. Journal of African Economies 14(3): 385-410. / -
J Piesse, C Thirtle (2010). Agricultural R & D, technology and productivity. Philosophical Transactions of the Royal Society B 365: 3035–3047. / -
MA Garcia, MA Altieri (2005). Transgenic crops: Implications for biodiversity and sustainable agriculture. Bulletin of Science Technology Society 25: 335-353. / -
G Brookes, P Barfoot (2006). Global impact of biotech crops: Socio-economic and environmental effects in the first ten years of commercial use. AgBioForum 9(3): 139-151. / AgBioForum
J Huesing, L English (2004). The impact of Bt crops on the developing world. AgBioForum 7(1&2): 84-95. / -
G Brookes, P Barfoot (2009). Global impact of biotech crops: Income and production effects, 1996-2007. AgBioForum 12(2): 184-208. / -
J Huang, R Hu, C Fan, CE Pray, S Rozelle (2002). Bt cotton benefits, costs, and impacts in China. AgBioForum 5(4): 153-166. / -
M-L Flannery, FS Thorne, PW Kelly, E Mullins (2004). An economic cost-benefit analysis of GM crop cultivation: An Irish case study. AgBioForum 7(4): 149-157. / -
MC Marra, PG Pardey, JM Alston (2002). The payoffs to transgenic field crops: An assessment of the evidence. AgBioForum 5(2): 43-50. / -
M Smale (2012). Rough terrain for research: Studying early adopters of biotech crops. AgBioForum 15(2): 114-124. / -
J Vitale, T Boyer, R Uaiene, JH Sanders (2007). The economic impacts of introducing Bt technology in smallholder cotton production systems of West Africa: A case study from Mali. AgBioForum 10(2): 71-84. / -
P Mal, AR Anik, S Bauer, PM Schmitz (2012). Bt cotton adoption: A double-hurdle approach for North Indian farmers. AgBioForum 15(3): 294-302. / -
EJ Trigo, EJ Cap (2003). The impact of the introduction of transgenic crops in Argentinean agriculture. AgBioForum 6(3): 87-94. / -
J Falck-Zepeda, A Sanders, CR Trabanino, R Batallas-Huacon (2012). Caught between Scylla and Charybdis: Impact estimation issues from the early adoption of GM maize in Honduras. AgBioForum 15(2): 138-151. / -
S Morse, R Bennett, Y Ismael (2007). Inequality and GM crops: A case–study of Bt cotton in India. AgBioForum 10(1): 44-50. / -
JD Vitale, G Vognan, M Ouattarra, O Traore (2010). The commercial application of GMO crops in Africa: Burkina Faso’s decade of experience with Bt cotton. AgBioForum 13(4): 320-332. / -
Y Ismael, R Bennett, S Morse (2002). Benefits from Bt cotton use by smallholder farmers in South Africa. AgBioForum 5(1): 1-5. / -
MC Marra, NE Piggott, BK Goodwin (2012). The impact of corn rootworm protected biotechnology traits in the United States. AgBioForum 15(2): 217-230. / -
GB Frisvold, JM Reeves, R Tronstad (2006). Bt Cotton adoption in the United States and China: International trade and welfare effects. AgBioForum 9(2): 69-78. / -
RM Bennett, Y Ismael, U Kambhampati, S Morse (2004). Economic impact of genetically modified cotton in India. AgBioForum 7(3): 96-100. / -
M Ivanic, W Martin (2010). Poverty impacts of improved agricultural productivity: Opportunities for genetically modified crops. AgBioForum 13(4): 308-313. / AgBioForum
J Wesseler (2009). The Santaniello theorem of irreversible benefits. AgBioForum 12(1): 8-13. / -
DJ Spielman, J Cohen, P Zambrano (2006). Will agbiotech applications reach marginalized farmers? Evidence from developing countries. AgBioForum 9(1): 23-30. / -
M Gouse, C Pray, D Schimmelpfennig (2004). The distribution of benefits from Bt cotton adoption in South Africa. AgBioForum 7(4): 187-194. / -
M Qaim, EJ Cap, A de Janvry (2003). Agronomics and sustainability of transgenic cotton in Argentina. AgBioForum 6(1&2): 41-47. / -
M Qaim, IMatuschke (2005). Impacts of genetically modified crops in developing countries: A survey. Quarterly Journal of International Agriculture 44(3):207-227. / Bi[bli]osafety database -
J Fernandez-Cornejo, WD McBride (2002). Genetically engineered crops: US adoption & impacts. Agricultural Outlook 294: 24-27. / -
D Zilberman, SE Sexton, MMarra, J Fernandez-Cornejo (2010). The economic impact of genetically engineered crops. Choices. The Magazine of Food, Farm, and Resources Issues 25(2): unpaginated. / -
G Brookes (2008). The impact of using GM insect resistant maize in Europe since 1998. International Journal of Biotechnology 10(2/3): 148-166. / -
J Carpenter, L Gianessi (2001). Why US farmers have adopted genetically modified crops and the impact on US agriculture. AgBiotechNet 3: 1-4. / -
M Qaim (2009). The economics of genetically modified crops. Annual Review of Resource Economics 1: 665-694. / -
M Qaim (2011). Genetically modified crops and global food security. In: Genetically modified food and global welfare(Frontiers of Economics and Globalization). C Carter, G Moschini, I Sheldon (eds), Volume 10, p. 29-54. / -
N Stocks, KChandrasekaran, COxborrow, H Holder, BFreese, J Lopez Villar(2008). Who benefits from GM crops? -The rise in pesticide use.Agriculture and Food 1112,pp 45. / -
ISAAA (2009). The dawn of a new era: Biotech crops in India. ISAAA Brief No.39.The International Service for the Acquisition of Agri-biotech Applications (ISAAA)South Asia office, New Delhi, India, pp34. / -
K Anderson (2010). Economic impacts of policies affecting crop biotechnology and trade. New Biotechnology 27(5): 558-564. / -
S Mayer (2002). Genetically modified cotton: Implications for small-scale farmers. Pesticide Action Network UK, London, UK. pp 35. / -
S Kouser, MQaim (2011). Impact of Bt cotton on pesticide poisoning in smallholder agriculture: A panel data analysis. Ecological Economics 70(11): 2105-2113. / -
J Park, I McFarlane, R Phipps, GCeddia(2011). The impact of the EU regulatory constraint of transgenic crops on farm income. New Biotechnology 28(4): 396-406. / -
C Benbrook (2010). Genetically engineered crops increase pesticide use in United States. Pesticides News 87: 12-14. / -
AR Schwember (2008). An update on genetically modified crops. Ciencia e InvestigacionAgraria 35(3): 185-204. / -
GP Gruère, A Bouët, S Mevel(2011). International trade and welfare effects of biotechnology innovations: GM food crops in Bangladesh, India, Indonesia, and the Philippines. In: Genetically Modified Food and Global Welfare (Frontiers of Economics and Globalization). CA Carter, G Moschini, I Sheldon (eds), Emerald Group Publishing Limited, Volume 10, pp283 – 308. / -
Y Zhou, WEKastenberg(2006). Quantification of changes in chemical pesticide human health risk following the introduction of Bt cotton and herbicide-tolerant soybean: A case study. Human and Ecological Risk Assessment 12(5): 871-887. / -
GK Regier, TJ Dalton (2013). Labor-savings of Roundup Ready Maize: Impact on Cost and Input Substitution for South African Smallholders. Fourth International Conference of the African Association of Agricultural Economists, 22-25 September 2013, Yasmine Hammamet, Tunisia. / CropLife International -
G Brookes, P Barfoot (2013). The global income and production effects of genetically modified (GM) crops 1996–2011. GM Crops and Food 4(2): 74-83. / -
J Popp, Z Lakner(2013). Global socio-economic and environmental dimensions of GM maize cultivation. Food and Nutrition Sciences 4: 8-20. / -
M Qaim, S Kouser(2013). Genetically modified crops and food security. PLoS ONE 8(6): e64879. / -
NM Laibuni, LC Miriti, CN Waturu, W Wessels, SM Njinju(2012). Cost benefit analysis of transgenic cotton containing cry1ac and cry2ab2 genes and HART 89M: Evidence from confined field trials in Kenya. African Journal of Horticultural Science 6: 27-34. / -
J Fernandez-Cornejo, S Wechsler(2012). Revisiting the impact of Bt corn adoption by US farmers. Agricultural and Resource Economics Review 41(3): 377-390. / -
J Berman, C Zhu, E Perez-Massot, G Arjo, U Zorrilla-Lopez, G Masip, R Banakar, G Sanahuja, G Farre, B Miralpeix, C Bai, E Vamvaka, M Sabalza, RM Twyman, L Bassie, T Capell, P Christou (2013). Can the world afford to ignore biotechnology solutions that address food insecurity? Plant Molecular Biology83(1-2):5-19. / -
Céleres(2012).The Commercial Benefits from Crop Biotechnology in Brazil: 1996/97 – 2011/12. Uberlândia, Minas Gerais, Brazil. / -
H Nazli, R Sarker, KD Meilke, D Orden (2010). Economic performance of Bt cotton varieties in Pakistan. Agricultural and Applied Economics
Association (AAEA), CAES & WAEA Joint Annual Meeting, 25-27July 2010, Denver, Colorado, USA.
2010 / -
T Tan, J Zhan, C Chen (2011). The impact of commercialization of GM rice in China. American-Eurasian Journal of Agricultural & Environmental Sciences10(3): 296-299. / -
VR Kiresur, M Ichangi(2011). Socio-economic impact of Btcotton – A case study of Karnataka. Agricultural Economics Research Review 24(1): 67-82. / -
S Kouser, M Qaim (2012). Valuing financial, health and environmental benefits of Bt cotton in Pakistan. International Association of Agricultural Economists (IAAE) Triennial Conference,18-24 August 2012, Foz do Iguaçu, Brazil. / -
FJ Areal, L Riesgo, E Rodriguez-Cerezo(2012). Economic and agronomic impact of commercialized GM crops: A meta-analysis. The Journal of Agricultural Science151(01): 7-33. / -
I Balaj, G Nedelea, EM Badea(2012). Assessing the environmental impact of changes in pesticide use on transgenic soybean.Journal of Horticulture, Forestry and Biotechnology 16(1): 57-63. / -
A Ali, A Abdulai(2010). The adoption of genetically modified cotton and poverty reduction in Pakistan.Journal of Agricultural Economics 61(1): 175-192. / -
JM Yorobe, M Smale(2012). Impacts of Bt maize on smallholder income in the Philippines.AgBioForum 15(2):152-162. / -
JKathage, M Qaim(2012). Economic impacts and impact dynamics of Bt (Bacillus thuringiensis) cotton in India.Proceedings of the National Academy of Sciences of the United States of America109: 11652–11656. / -
EuropaBio(2011). GM crops: Reaping the benefits, but not in Europe – Socio-economic impacts of agricultural biotechnology.EuropBio, Brussels, Belgium, pp. 20. / -
Committee of Council of Social Development (2012). Study on the Socio-Economic Impact Assessment of Bt Cotton in India, Council of Social Development. / -
G Brookes, P Barfoot(2012).GM crops: Global socio-economic and environmental impacts 1996-2010. PG Economics Ltd, UK. / -
A Balakrishna(2012). Economics of Bt cotton in India.Journal of Development and Agricultural Economics 4(5): 119-124. / -
CE Pray, L Nagarajan, J Huang, R Hu, B Ramaswami(2011). Impact of Bt cotton, the potential future benefits from biotechnology in China and India.In: Genetically modified food and global welfare(Frontiers of Economics and Globalization). C Carter, G Moschini, I Sheldon (eds), Volume 10, p.83–114. / -
VV Krishna, M Qaim(2012).Bt cotton and sustainability of pesticide reductions in India.Agricultural Systems 107: 47-55. / -
T Kaphengst, N El Benni, C Evans, R Finger, S Herbert, S Morse, N Stupak (2011). Assessment of the economic performance of GM crops worldwide. ENV.B.3/ETU/2009/0010, Final Report, Ecologic Institute, Berlin, Germany. / -
EJ Trigo(2011).15 Years of Genetically Modified Crops in Argentine Agriculture.ConsejoArgentino para la Información y el Desarrollo de la Biotecnología (ArgenBio), Buenos Aires, Argentina. / -
G Brookes, P Barfoot(2011). The income and production effects of biotech crops globally 1996-2009.International Journal of Biotechnology 12(1/2): 1 – 49. / -
V Krishna, M Qaim(2011).Pesticide Reduction Sustainability of Bt Technology in India.XIIIth European Association of Agricultural Economists (EAAE) Congress, 30 August -2September 2011, Zurich, Switzerland. / -
M Gouse, JF Kirsten, WJ Van der Walt (2008). Btcotton and Btmaize: An Evaluation of direct and indirect impact on the cotton and maize farming sectors in South Africa. RES-167-25-0187, Final Report. National Department of Agriculture,Pretoria, South Africa. / -
K Chakraborty(2010). The economics of BT cotton production in India– Ameta analysis.Indian Journal of Economics and Business 9(4): 647. / -
R Finger, N El Benni, T Kaphengst, C Evans, S Herbert, B Lehmann, S Morse, N Stupak (2011). A meta-analysis on farm-level costs and benefits of GM crops.Sustainability 3: 743-762. / -
AM Mannion, S Morse (2013).GM crops 1996-2012: A review of agronomic, environmental and socio-economic impacts. Working Paper 04/13, Centre for Environmental Strategy (CES), University of Surrey, UK. / -
National Research Council (2010). Impact of Genetically Engineered Crops on Farm Sustainability in the United States. The National Academies Press, Washington DC, USA. pp. 270. / -
RM Bennet, R Phipps, A Strange, P Grey (2004). Environmental and human health impacts of growing genetically modified herbicide-tolerant sugar beet: A life-cycle assessment. Plant Biotechnology Journal2:273-278. / -
J Huang, R Hu, C Fan, CE Pray, S Rozelle (2003). Bt cotton benefits, costs and impacts in China. IDS Working Paper 202. Institute of Development Studies, Brighton, UK. / -
i)IJ Mauro, S McLachlan(2008). Farmer knowledge and risk analysis: postrelease evaluation of herbicide-tolerant canola in Western Canada. Risk Analysis 28(2): 463-476. / Pubget
LP Gianessi(2005). Economic and herbicide use impacts of glyphosate-resistant crops. Pest Management Science 61(3): 241-245. / -
MA Pedlowskia, MC Canelab, MA da Costa Terraa, RM Ramos de Faria(2012). Modes of pesticides utilization by Brazilian smallholders and their implications for human health and the environment. Crop Protection 31(1): 113–118. / -
S Morse, R Bennett(2008).Impact of Bt cotton on farmer livelihoods in South Africa. International Journal of Biotechnology 10(2-3):224 – 239. / -
F Hossain, CE Pray, Y Lu, J Huang, C Fan, R Hu(2004). Genetically modified cotton and farmers' health in China. International Journal of Occupational and Environmental Health 10(3): 296-303. / -
K Schmidt, R Wilhelm, J Schmidtke, L Beissner, W Mönkemeyer, P Böttinger, J Sweet, J Schiemann (2008). Farm questionnaires for monitoring genetically modified crops: A case study using GM maize. Environmental Biosafety Research 7(3): 163-179. / -
M Gouse, CE Pray, J Kirsten, D Schimmelpfennig (2005). A GM subsistence crop in Africa: The case of Bt white maize in South Africa. International Journal of Biotechnology 7(1-3):84–94. / -
K Méndez, AChaparroGiraldo, G Moreno, C Castro (2011). Production cost analysis and use of pesticides in the transgenic and conventional corn crop [Zea mays (L.)] in the valley of San Juan, Tolima. GM Crops2(3):163-168. / -
A Wossink,ZS Denaux(2006). Environmental and cost efficiency of pesticide use in transgenic and conventional cotton production. Agricultural Systems90(1-3):312–328. / -
JDG Jones (2011). Why genetically modified crops? Philosophical Transactions of the Royal Society A 369(1942): 1807-1816. / -
JE Carpenter(2011). Impact of GM crops on biodiversity. GM Crops2(1):7-23. / -
FS Betz, BG Hammond, RL Fuchs(2000). Safety and advantages of Bacillus thuringiensis-protected plants to control insect pests. Regulatory Toxicology and Pharmacology32(2):156-173. / -
VV Velkov, AB Medvinsky, M Sokolov, AI Marchenko(2005). Will transgenic plants adversely affect the environment? Journal of Biosciences 30(4):515-548. / -
SMorse, RM Bennett, Y Ismael (2005). Genetically modified insect resistance in cotton: Some farm level economic impacts in India. Crop Protection24(5):433–440. / -
DE Kolady, W Lesser (2008). Is genetically engineered technology a good alternative to pesticide use: The case of GE eggplant in India.International Journal of Biotechnology10(2-3):132–147. / -
J Vitale, H Glick, J Greenplate, OTraore(2008). The economic impacts of second generation Bt cotton in West Africa: Empirical evidence from Burkina Faso. International Journal of Biotechnology10(2-3):167-167-183. / -
S Morse, R Bennett, Y Ismael (2005). Bt-cotton boosts the gross margin of small-scale cotton producers in South Africa. International Journal of Biotechnology7(1-3): 72 – 83. / -
AAdenle (2011). Response to issues on GM agriculture in Africa: Are transgenic crops safe? BMC Research Notes 4(1): 388-394. / -
TA Wilson, ME Rice, JJTollefson, CD Pilcher(2005). Transgenic corn for control of the European corn borer and corn rootworms: A survey of Midwestern farmers' practices and perceptions.Journal of Economic Entomology98(2):237-247. / -
O Sanvido, JRomeis, F Bigler(2007). Ecological impacts of genetically modified crops: ten years of field research and commercial cultivation.
Advances in Biochemical Engineering/Biotechnology107:235-78. / -
S Kumar, A Chandra, KC Pandey(2008).Bacillus thuringiensis (Bt) transgenic crop: An environment friendly insect-pest management strategy. Journal of Environmental Biology29(5):641-653. / -
BMMaghari, AM Ardekani(2011). Genetically modified foods and social concerns.Avicenna Journal of Medical Biotechnology3(3): 109–117. / -
CD Osteen, J Fernandez-Cornejo (2013). Economic and policy issues of U.S. agricultural pesticide use trends. Pest Management Science69(9):1001-1025. / PubMed Central
G Brookes, P Barfoot (2012). The income and production effects of biotech crops globally 1996-2010. GM Crops & Food 3(4):265-272. / -
MH Ward, J Lubin, J Giglierano, JS Colt, C Wolter, N Bekiroglu, D Camann, P Hartge, JR Nuckols (2006).Proximity to crops and residential exposure to agricultural herbicides in Iowa. Environmental Health Perspectives 114(6):893-897. / -
B Bakke, AJ De Roos, DB Barr, PA Stewart, A Blair, LB Freeman, CF Lynch, RH Allen, MC Alavanja, R Vermeulen(2008). Exposure to atrazine and selected non-persistent pesticides among corn farmers during a growing season. Journal of Exposure Science & Environmental Epidemiology19(6):544-554. / -
A Blair, DP Sandler, R Tarone, J Lubin, K Thomas, JA Hoppin, C Samanic, J Coble, F Kamel, C Knott, M Dosemeci, SH Zahm, CF Lynch, N Rothman, MC Alavanja(2005). Mortality among participants in the agricultural health study. Annals of Epidemiology 15(4):279-285. / -
MR Bonner, WJLee, DP Sandler, JA Hoppin, M Dosemeci, MC Alavanja(2005). Occupational exposure to carbofuran and the incidence of cancer in the Agricultural Health Study. Environmental Health Perspectives 113(3):285-289. / -
JA Rusiecki, A De Roos, WJ Lee, M Dosemeci, JH Lubin, JA Hoppin, A Blair, MC Alavanja(2004).Cancer incidence among pesticide applicators exposed to atrazine in the Agricultural Health Study. Journal of the National Cancer Institute96(18):1375-1382. / -
ED Wagner, MS Marengo, MJ Plewa(2003). Modulation of the mutagenicity of heterocyclic amines by organophosphate insecticides and their metabolites. Mutation Research536(1-2):103-115. / -
CE Pray, J Huang, R Hu, S Rozelle(2002). Five years of Bt cotton in China - The benefits continue. Plant Journal 31(4):423-430. / -
J Huang, S Rozelle, C Pray, Q Wang (2002). Plant biotechnology in China. Science 295(5555):674-676. / -
MH Ward, JR Nuckols, SJ Weigel, SK Maxwell, KP Cantor, RS Miller (2000). Identifying populations potentially exposed to agricultural pesticides using remote sensing and a Geographic Information System. Environmental Health Perspectives 108(1):5-12. / -
B Gao, C Tao, J Ye, J Ning, X Mei, Z Jiang, S Chen, D She (2013). Measurement of operator exposure to chlorpyrifos. Pest Management Science 70(4): 636–641. / -
M Buiatti, P Christou, G Pastore(2013). The application of GMOs in agriculture and in food production for a better nutrition: Two different scientific points of view. Genes & Nutrition 8(3): 255-70 / -
AJ Trewavas, CJ Leaver (2001). Is opposition to GM crops science or politics? An investigation into the arguments that GM crops pose a particular threat to the environment. EMBO Reports 2(6): 455–459. / -
MG Cattaneo, C Yafuso, C Schmidt, C Huang, M Rahman, C Olson, C Ellers-Kirk, BJ Orr, SE Marsh, L Antilla, P Dutilleul, Y Carrière (2006). Farm-scale evaluation of the impacts of transgenic cotton on biodiversity, pesticide use, and yield. Proceedings of the National Academy of Sciences of the United States of America 103(20): 7571–7576. / -
S Key, JK-C Ma, PMW Drake (2008). Genetically modified plants and human health. Journal of the Royal Society of Medicine101(6): 290–298. / -
E Pérez-Massot, R Banakar, S Gómez-Galera, U Zorrilla-López, G Sanahuja, G Arjó, B Miralpeix, E Vamvaka, G Farré, S Maiam Rivera, S Dashevskaya, J Berman, M Sabalza, D Yuan, C Bai, L Bassie, RM Twyman, T Capell, P Christou, C Zhu (2013). The contribution of transgenic plants to better health through improved nutrition: Opportunities and constraints. Genes & Nutrition8(1): 29–41. / -
JD Pidgeon, MJ May, JN Perry, GM Poppy (2007).Mitigation of indirect environmental effects of GM crops. Proceedings of the Royal Society B274(1617): 1475-1479. / -
T Fagerström, C Dixelius, U Magnusson, JF Sundström (2012). Stop worrying; Start growing: Risk research on GM crops is a dead parrot: It is time to start reaping the benefits of GM. EMBO Reports 13(6): 493–497. / -
MA Schnurr(2012). Inventing Makhathini: Creating a prototype for the dissemination of genetically modified crops into Africa.Geoforum 43(4): 784-792. / ScienceDirect
C Pray, D Ma, J Huang, F Qiao(2001). Impact of Bt Cotton in China World Development 29(5): 813-825. / -
JC Zadoks, H Waibel(2000). From pesticides to genetically modified plants: History, economics and politics. NJAS - Wageningen Journal of Life Sciences 48(2): 125–149. / -
J Thomson (2003). Genetically modified food crops for improving agricultural practice and their effects on human health. Trends in Food Science & Technology 14(5–8): 210-228. / -
M Qaim, CE Pray, D Zilberman(2008). Economic and social considerations in the adoption of Bt crops. In: Integration of Insect-Resistant Genetically Modified Crops within IPM Programs. J Romeis, AM Shelton, GG Kennedy (eds), Series: Progress in Biological Control. Springer Netherlands,Volume 5, pp. 329-356. / Web of knowledge
JK Huang, RF Hu, C Pray, F Qiao, S Rozelle
(2003). Biotechnology as an alternative to chemical pesticides: a case study of Bt cotton in China.Agricultural Economics 29: 55–67. / -
O Sydorovych, MC Marra (2007). A genetically engineered crop's impact on pesticide use: A revealed-preference index approach Journal of Agricultural and Resource Economics 32(3): 476-491. / -
B Zhang, X Pan, Q Wang (2005). Development and commercial use of Bt cotton. Physiology and Molecular Biology of Plants 11(1): 51-64. / -
Impact of Bt cotton adoption on pesticide use by smallholders: A 2-year survey in Makhatini Flats (South Africa)
By: Hofs, Jean-Luc; Fok, Michel; Vaissayre, Maurice. CROP PROTECTION Volume: 25 Issue: 9 Pages: 984-988 Published: SEP 2006 / -
S Kouser, MQaim (2013). Valuing financial, health, and environmental benefits of Bt cotton in Pakistan. Agricultural Economics 44 (3): 323-335. / -
R Bennett, TJ Buthelezi, Y Ismael, S Morse (2003).Bt cotton, pesticides, labour and health - A case study of smallholder farmers in the Makhathini Flats, Republic of South Africa. Outlook on Agriculture32(2): 123-128. / -
A Subramanian, MQaim (2010). The impact of Bt cotton on poor households in rural India. Journal of Development Studies 46(2): 295-311. / -
AM Shelton (2012). Genetically engineered vegetables expressing proteins from Bacillus thuringiensis for insect resistance: Successes, disappointments, challenges and ways to move forward. GM Crops & Food 3(3): 175-183. / -
D Zilberman, H Ameden, M Qaim (2007). The impact of agricultural biotechnology on yields, risks, and biodiversity in low-income countries. Journal of Development Studies 43(1): 63-78. / -
CD Mayee (2009). Bt cotton in India: Current status and impact on textile industry. Proceedings of the National Academy of Sciences India B 79: 195-211. / -
R Bennett, Y Ismael, S Morse, B Shankar (2004). Reductions in insecticide use from adoption of Bt cotton in South Africa: Impacts on economic performance and toxic load to the environment.Journal of Agricultural Science 142: 665-674. / -