Are we under threat?
the dilemma of insects in the production landscape
DOI:
https://doi.org/10.31285/AGRO.27.1229Keywords:
landscape ecology, ecological intensification strategies, integrated pest managementDownloads
References
Abbate S, Madeira F, Silva H, Altier N, Pons X. Association between landscape composition and the abundance of predator and herbivore arthropods in Bt and non-Bt soybean crops. Agric Ecosyst Environ. 2022;336:108027. Doi: 10.1016/j.agee.2022.108027.
Abbate SL, Madeira F, Bentancur O, Altier N, Pons X. Refuge areas favor the presence of predators and herbivores in Bt soybean: a landscape perspective. J Pest Sci 2023;96(3):1133-47.
Altieri MA, Nicholls CI. Agroecology and the reconstruction of a post-COVID-19 agriculture. J Peasant Stud. 2020;47(5):881-98.
Baeza S, Paruelo JM. Land use/land cover change (2000-2014) in the Rio de la Plata grasslands: an analysis based on MODIS NDVI time series. Remote Sens. 2020;12(3):381. Doi: 10.3390/rs12030381.
Blitzer EJ, Dormann CF, Holzschuh A, Klein AM, Rand TA, Tscharntke T. Spillover of functionally important organisms between managed and natural habitats. Agric Ecosyst Environ. 2012;146:34-43.
Bommarco R, Kleijn D, Potts SG. Ecological intensification: harnessing ecosystem services for food security. Trends Ecol Evol. 2013;28(4):230-8.
Brookes G, Barfoot P. GM crops: global socio-economic and environmental impacts 1996–2014. Dorchester: PG Economics; 2016. 198p.
Bueno AD, Panizzi AR, Hunt TE, Dourado PM, Pitta RM, Gonçalves J. Challenges for adoption of integrated pest management (IPM): the soybean example. Neotrop Entomol. 2021;50(1):5-20.
Carson RL. Silent spring. Boston: Houghton Mifflin; 1962. 368p.
Cibils-Stewart X, Gonzalez M, Pessio M, Calistro P, Rossi C, Giambiasi M, Chiaravalle W, Abbate S, Baraibar N. Crónica del daño de la lagarta medidora (Rachiplusia nu) en soja Intacta®. Revista INIA. 2023;(72):53-8.
Clark LR, Geier PW, Hughes RD, Morris RF. The ecology of insect populations in theory and practice. London: Methuen; 1967. 232p.
Dourado PM, Bacalhau FB, Amado D, Carvalho RA, Martinelli S, Head GP, Omoto C. High susceptibility to Cry1Ac and low resistance allele frequency reduce the risk of resistance of Helicoverpa armigera to Bt soybean in Brazil. PLoS One. 2016;11(8):e0161388. Doi: 10.1371/journal.pone.0161388.
Ernst O. Brecha de rendimiento de trigo: pérdida de calidad de suelo como factor determinante [doctoral’s thesis]. Montevideo (UY): Universidad de la República, Facultad de Agronomía; 2018. 157p.
Garramuño EA. Perspectivas de la ecología del paisaje en entomología aplicada. Revista Corpoica. 2006;7(1):54-60.
Gazzano I, Achkar M, Díaz I. Agricultural transformations in the southern cone of Latin America: agricultural intensification and decrease of the aboveground net primary production, Uruguay’s case. Sustainability 2019;11(24):7011. Doi: 10.3390/su11247011.
González E, Bianchi FJ, Eckerter PW, Pfaff V, Weiler S, Entling MH. Ecological requirements drive the variable responses of wheat pests and natural enemies to the landscape context. J Appl Ecol. 2022;59(2):444-56.
González E, Salvo A, Valladares G. Arthropod communities and biological control in soybean fields: forest cover at landscape scale is more influential than forest proximity. Agric Ecosyst Environ. 2017;239:359-67.
Higley LG, Pedigo LP. The EIL concept. In: Higley LG, Pedigo LP, editors. Economic threshold for integrated pest management. Lincoln: University of Nebraska-Lincoln; 1996. pp. 9-21.
Horikoshi RJ, Bernardi O, Godoy DN, Semeão AA, Willse A, Corazza GO, Ruthes E, Fernandes DD, Sosa-Gómez DR, Bueno AD, Omoto C. Resistance status of lepidopteran soybean pests following large-scale use of MON 87701× MON 89788 soybean in Brazil. Sci Rep. 2021;11(1):1-5.
Kogan M. Ecological theory and integrated pest management practice. New York: Wiley; 1986. 362p.
Kogan M. Integrated pest management: historical perspectives and contemporary developments. Annu Rev Entomol. 1998;43(1):243-70
Kogan M, Shenk M. Conceptualización del manejo integrado de plagas en escalas espaciales y niveles de integración más amplios. Man Integr Plagas Agroecol (Costa Rica). 2002;65:34-42.
Landis DA, Menalled FD, Costamagna AC, Wilkinson TK. Manipulating plant resources to enhance beneficial arthropods in agricultural landscapes. Weed Sci. 2005;53(6):902-8.
Madeira F, di Lascio A, Costantini ML, Rossi L, Rösch V, Pons X. Intercrop movement of heteropteran predators between alfalfa and maize examined by stable isotope analysis. J Pest Sci. 2019;92(2):757-67.
Naranjo SE, Ellsworth PC, Frisvold GB. Economic value of biological control in integrated pest management of managed plant systems. Annu Rev Entomol. 2015;60(1):621-45.
Palladino C, García I, Fernández G. Pesticide dependence and associated risks in Uruguayan agriculture: limitations in its approach. Agrocienc Urug. 2023;27:e1156. Doi: 10.31285/AGRO.27.1156.
Pompozzi G, Marrero HJ, Panchuk J, Graffigna S, Haedo JP, Martínez LC, Torretta JP. Differential responses in spider oviposition on crop-edge gradients in agroecosystems with different management. Agric Ecosyst Environ. 2021;322:107654. Doi: 10.1016/j.agee.2021.107654.
Pons X, Lumbierres B, Albajes R. Heteropterans as aphid predatords in inter-mountain alfalfa. Eur J Entomol. 2009;106(3):369-78.
Ribeiro, A. Prospección de agentes de control natural de plagas en sistemas agrícola- pastoriles. In: Altier N, Rebuffo M, Cabrera K, editors. Enfermedades y plagas en pasturas. Montevideo: INIA; 2010. pp.105-10.
Root RB. Organization of a plant-arthropod association in simple and diverse habitats: the fauna of collards (Brassica oleracea). Ecol Monogr. 1973;43:95-124.
Ruggia A, Dogliotti S, Aguerre V, Albicette MM, Albin A, Blumetto O, Cardozo G, Leoni C, Quintans G, Scarlato S, Tittonell P. The application of ecologically intensive principles to the systemic redesign of livestock farms on native grasslands: a case of co-innovation in Rocha, Uruguay. Agric Syst. 2021;191:103148. Doi: 10.1016/j.agsy.2021.103148.
Saqib HS, Chen J, Chen W, Pozsgai G, Akutse KS, Ashraf MF, You M, Gurr GM. Local management and landscape structure determine the assemblage patterns of spiders in vegetable fields. Sci Rep. 2020;10(1):15130. Doi: 10.1038/s41598-020-71888-w.
Stern VM, Smith RF, Van Den Bosch R, Hagen KS. The integrated control concept. Hilgardia. 1959;29(2):81-101.
Tabashnik BE, Van Rensburg JBJ, Carrière Y. Field-evolved insect resistance to Bt crops: definition, theory, and data. J Econ Entomol. 2009;102:2011-25.
Tian JC, Long LP, Wang XP, Naranjo SE, Romeis J, Hellmich RL, Wang P, Shelton AM. Using resistant prey demonstrates that Bt plants producing Cry1Ac, Cry2Ab, and Cry1F have no negative effects on Geocoris punctipes and Orius insidiosus. Environ Entomol. 2014;43(1):242-51.
Tittonell P, Piñeiro G, Garibaldi LA, Dogliotti S, Olff H, Jobbagy EG. Agroecology in large scale farming: a research agenda. Front sustain Food Syst. 2020;4:584605. Doi: 10.3389/fsufs.2020.584605.
Tscharntke T, Klein AM, Kruess A, Steffan‐Dewenter I, Thies C. Landscape perspectives on agricultural intensification and biodiversity–ecosystem service management. Ecol Lett. 2005;8(8):857-74.
White JA, Andow DA. Natural enemies and resistance management in Bt corn: parasitoid searching behavior and host spatial distribution. In: 1st International Symposium on Biological Control of Arthropods; 2002 Jan 14-18; Honolulu, Hawaii. Washington: USDA Forest Service; 2003. pp. 292.
Zerbino MS, Altier N, Panizzi AR. Performance of nymph and adult of Piezodorus guildinii (Westwood) (Hemiptera: Pentatomidae) feeding on cultivated legumes. Neotrop Entomol. 2016;45(2):114-22.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2023 Agrociencia Uruguay
This work is licensed under a Creative Commons Attribution 4.0 International License.
| Article metrics | |
|---|---|
| Abstract views | |
| Galley vies | |
| PDF Views | |
| HTML views | |
| Other views | |
