Jorge A. Zavala

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Publications of Jorge A. Zavala (15 listed):

Frontiers in Ecology and Evolution (2023) 2023 (11 - 1084063)
Camila Dávila, Juan E. Fiorenza, Jonathan Gershenzon, Michael Reichelt, Jorge A. Zavala and Patricia C. Fernández (2023)
Sawfly egg deposition extends the insect life cycle and alters hormone and volatile emission profiles

Pest Management Science (2022) 78, 2113-2120
Vanesa Gisela Jacobi, Patricia Carina Fernández and Jorge Alberto Zavala (2022)
The stink bug Dichelops furcatus: a new pest of corn that emerges from soybean stubble

Pest Management Science (2021) 77, 2444-2453
Vanesa Gisela Jacobi, Patricia Carina Fernandez, Lucía Guadalupe Barriga, Marilia Almeida-Trapp, Axel Mithöfer and Jorge Alberto Zavala (2021)
Plant volatiles guide the new pest Dichelops furcatus to feed on corn seedlings

Arthropod-Plant Interactions (2020) 14, 89-99
Berenice Romero, Francisco M. Dillon and Jorge A. Zavala (2020)
Different soybean cultivars respond differentially to damage in a herbivore-specific manner and decreas herbivore performance

Arthropod-Plant Interactions (2018) 12, 531-541
Romina Giacometti, Natalia Ilina, Pagano A. Eduardo and Jorge A. Zavala (2018)
Stink bug Nezara viridula sustains late MAPKs phosphorylation status and induces expression of genes related with cell wall rearrangement in developing soybean seeds

Annals of Applied Biology (2017) 170, 68-77
J.A. Zavala, L. Gog and R. Giacometti (2017)
Anthropogenic increase in carbon dioxide modifies plant–insect interactions

Pest Management Science (2016) 72, 1585-1594
Romina Giacometti, Jesica Barneto, Lucia G. Barriga, Pedro M. Sardoy, Karina Balestrasse, Andrea M. Andrade, Eduardo A. Pagano, Sergio G. Alemano and Jorge A. Zavala (2016)
Early perception of stink bug damage in developing seeds of field-grown soybean induces chemical defences and reduces bug attack

Journal of Chemical Ecology (2015) 41, 985-996
Andrea S. Vega, M. Victoria Coll Aráoz, Peter E. Teal, Teresa Cerrillo, Jorge A. Zavala and Patricia C. Fernandez (2015)
Both volatiles and cuticular plant compounds determine oviposition of the willow sawfly Nematus oligospilus on leaves of Salix spp. (Salicaceae)

Evolutionary Applications (2015) 8, 692-704
Chia-Ching Chu, Jorge A. Zavala, Joseph L. Spencer, Matías J. Curzi, Christopher J. Fields, Jenny Drnevich, Blair D. Siegfried and Manfredo J. Seufferheld (2015)
Patterns of differential gene expression in adult rotation-resistant and wild-type western corn rootworm digestive tracts

Annual Review of Entomology (2013) 58, 79-97
Jorge A. Zavala, Paul D. Nabity and Evan H. DeLucia (2013)
An emerging understanding of mechanisms governing insect herbivory under elevated CO₂

Proceedings of the National Academy of Sciences of the United States of America (2013) 110, 11917-11922
Chia-Ching Chu, Joseph L. Spencer, Matías J. Curzi, Jorge A. Zavala and Manfredo J. Seufferheld (2013)
Gut bacteria facilitate adaptation to crop rotation in the western corn rootworm

Ecology and Evolution (2012) 2, 2005-2017
Matías J. Curzi, Jorge A. Zavala, Joseph L. Spencer and Manfredo J. Seufferheld (2012)
Abnormally high digestive enzyme activity and gene expression explain the contemporary evolution of a Diabrotica biotype able to feed on soybeans

Insect Science (2011) 18, 419-425
Bridget F. O'Neill, Arthur R. Zangerl, Evan H. DeLucia, Clare Casteel, Jorge A. Zavala and May R. Berenbaum (2011)
Leaf temperature of soybean grown under elevated CO₂ increases Aphis glycines (Hemiptera: Aphididae) population growth

Journal of Chemical Ecology (2010) 36, 35-45
Bridget F. O'Neill, Arthur R. Zangerl, Orla Dermody, Damla D. Bilgin, Clare L. Casteel, Jorge A. Zavala, Evan H. DeLucia and May R. Berenbaum (2010)
Impact of elevated levels of atmospheric CO₂ and herbivory on flavonoids of soybean (Glycine max Linnaeus)

Oecologia (2009) 161, 35-41
Jorge A. Zavala, Clare L. Casteel, Paul D. Nabity, May R. Berenbaum and Evan H. DeLucia (2009)
Role of cysteine proteinase inhibitors in preference of Japanese beetles (Popillia japonica) for soybean (Glycine max) leaves of different ages and grown under elevated CO₂