[17] Gaiarsa, M.P., Bascompte, J. 2022. Hidden effects of habitat restoration on the persistence of plant-pollinator interactions. Ecology Letters, 25(10): 2132-2141.
[16] Gaiarsa, M.P., Rehan, Sandra & McFrederick, Q.S. 2022. Individual dietary specialization in bees varies across populations but has no effect on associated microbial communities. The American Naturalist.
[15] Alves-Pinto, H., Cordeiro, C., Geldmann, J., Jonas, H., Gaiarsa, M.P., Balmford, A., Watson, J., Latawieck, A. & Strassburga, B. 2022. Traditional communities reduce native vegetation conversion and increase restoration in the Brazilian Amazon. Biological Conservation, 267: 109473. Checkout the press coverage.
[14] Gaiarsa, M.P., Kremen, C.K. & Ponisio, LC. 2021. Pollinator interaction flexibility across scales affects patch colonization and occupancy. Nature Ecology and Evolution.
[13] Guimarães, M., Correa, D., Gaiarsa, M.P., & Kéry. 2020. Full-annual demography and seasonal cycles in a resident vertebrate. PeerJ.
[12] Gaiarsa, M.P. & Guimarães, P. 2019. Interaction strength promote robustness in mutualistic networks against cascading effects. Scientific Reports , 9(676).
[11] Ponisio, L.C, Valdovinos, F.S., Allhoff, K., Gaiarsa, M.P., Guimarães, P.R, Martinez, N., Morrison, B. & Gillespie, R. 2019. A network perspective for community assembly. Frontiers in Ecology and Evolution.
[10] Cirtwill, A.R., Dalla Riva, G.V., Gaiarsa, M.P. , Bimler, M., Cagua, F., Coux, C. & Dehling, D.M. 2018. Species' roles in food webs. Food Webs, p.e00093.
[9] Hutchinson, M.C., Gaiarsa, M.P. & Stouffer, D. 2018. Contemporary ecological interactions improve models of past trait evolution. Systematic Biology, syy012.
[8] Ponisio, L.C., Gaiarsa, M.P. & Kremen, C. 2017. Opportunistic attachment assembles plant-pollinator communities. Ecology Letters, 20(10): 2161-1272 .
[7] Ruggeri, J., Longo, A., Gaiarsa, M.P. Alencar, L.R.V., Lambertini, C., Leite, D.S., Carvalho-e-Silva, S.P., Zamudio, K.R., Toledo, L.F., & Martins, M. 2015. Seasonal variation in population abundance and chytrid infection in stream-dwelling frogs of the Brazilian Atlantic Forest. PLoS ONE, 10(7):e0130554.
[6] Gaiarsa, M.P., Alencar, L.R.V. , Valdujo, P.H., Tambosi, L.R. & Martins, M. 2015. Setting conservation priorities within monophyletic groups: an integrative approach. Journal for Nature Conservation, 24:49-55.
[5] Gaiarsa, M.P., Alencar, L.R.V. & Martins, M. 2013. Natural History of Pseudoboini snakes. Papéis Avulsos de Zoologia, 53(19):261-283.
[4] Guimarães, M., Gaiarsa, M.P. and Cavalhieri, H.B. 2013. Morphological adaptations to arboreal habitats and heart position in species of the Neotropical Whipsnakes genus Chironius. Acta Zoologica, online. doi: 10.1111/azo.12031.
[3] Alencar, L.R.V., Gaiarsa, M.P. & Martins, M. 2013. The evolution of diet and microhabitat use in pseudoboine snakes. South American Journal of Herpetology, 8: 60-66.
Natural History Notes (peer reviewed)
[2] Gaiarsa, M.P., Alencar, L.R.V. & Martins, M. 2012. Predator or prey? Predatory interactions between the frog Cycloramphus boraceiensis and the spider Trechaleoides biocellata in the Atlantic Forest of southeastern Brazil. Herpetology notes, 5:67-68.
[1] Alencar, L.R.V, Gaiarsa, M.P., Gennari, D.T. and Martins, M. 2012. Hylodes phyllodes (Amphibia, Anura, Hylodidae): nocturnal calling behavior. Herpetologia brasileira, 1(2): 82-83.
Other types of publications
- Gaiarsa, M.P. et al. 2020. The role of sorority in building collective science, Science, eLetter.
- Gaiarsa, MP et al. 2020. Structural vulnerability of hospitals, cemeteries, and crematoriums of the city of São Paulo to COVID-19. SciELO Preprints (in Portuguese).
- Raimundo, R, et al. 2020. Vulnerability of micro-regions within Northeast Brazil to the new coronavirus (SARS-CoV-2) pandemic. SciELO Preprints (in Portuguese).