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Stable isotopic composition of Bothrops atrox (common lancehead) in four distinct land covers in eastern Amazonia. / Martinez, Melissa Gaste; de Camargo, Plinio Barbosa; Moura da Silva, Ana Maria et al.
In: Biotropica, 22.04.2024.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Martinez, MG, de Camargo, PB, Moura da Silva, AM, de Oliveira Junior, RC, de Menzies Chalkidis, H, Dos Santos Junior, AP, Mourao, RHV, Awazonas, DR, Soltangheisi, A, da Silva Araujo, MG, Filho, ALA & Martinelli, LA 2024, 'Stable isotopic composition of Bothrops atrox (common lancehead) in four distinct land covers in eastern Amazonia', Biotropica. <https://onlinelibrary.wiley.com/doi/full/10.1111/btp.13325>

APA

Martinez, M. G., de Camargo, P. B., Moura da Silva, A. M., de Oliveira Junior, R. C., de Menzies Chalkidis, H., Dos Santos Junior, A. P., Mourao, R. H. V., Awazonas, D. R., Soltangheisi, A., da Silva Araujo, M. G., Filho, A. L. A., & Martinelli, L. A. (2024). Stable isotopic composition of Bothrops atrox (common lancehead) in four distinct land covers in eastern Amazonia. Biotropica, Article e13325. https://onlinelibrary.wiley.com/doi/full/10.1111/btp.13325

CBE

Martinez MG, de Camargo PB, Moura da Silva AM, de Oliveira Junior RC, de Menzies Chalkidis H, Dos Santos Junior AP, Mourao RHV, Awazonas DR, Soltangheisi A, da Silva Araujo MG, et al. 2024. Stable isotopic composition of Bothrops atrox (common lancehead) in four distinct land covers in eastern Amazonia. Biotropica. Article e13325.

MLA

VancouverVancouver

Martinez MG, de Camargo PB, Moura da Silva AM, de Oliveira Junior RC, de Menzies Chalkidis H, Dos Santos Junior AP et al. Stable isotopic composition of Bothrops atrox (common lancehead) in four distinct land covers in eastern Amazonia. Biotropica. 2024 Apr 22;e13325.

Author

Martinez, Melissa Gaste ; de Camargo, Plinio Barbosa ; Moura da Silva, Ana Maria et al. / Stable isotopic composition of Bothrops atrox (common lancehead) in four distinct land covers in eastern Amazonia. In: Biotropica. 2024.

RIS

TY - JOUR

T1 - Stable isotopic composition of Bothrops atrox (common lancehead) in four distinct land covers in eastern Amazonia

AU - Martinez, Melissa Gaste

AU - de Camargo, Plinio Barbosa

AU - Moura da Silva, Ana Maria

AU - de Oliveira Junior, Raimundo Cosme

AU - de Menzies Chalkidis, Hipocrates

AU - Dos Santos Junior, Alfredo Pedroso

AU - Mourao, Rosa Helena Veras

AU - Awazonas, Diana Rego

AU - Soltangheisi, Amin

AU - da Silva Araujo, Maria Gabriella

AU - Filho, Adibe Luiz Abdalla

AU - Martinelli, Luiz Antonio

PY - 2024/4/22

Y1 - 2024/4/22

N2 - Since consumers reflect the isotopic composition of an assimilated diet, stable isotopes can be a useful tool to address the feeding ecology of tropical snakes. This is the first study reporting carbon and nitrogen stable isotopic composition of Bothrops atrox (Linnaeus, 1758) living in different landscapes located in the lower Amazon river, encompassing four main natural landscapes of the Amazon: old-growth forests, várzeas (flooded forests), savannas, and pastures. Our null hypothesis is that the δ13C of forest specimens of B.atrox is more negative because forests are dominated by C3 plants, while C4 plants are common in the other landscapes. On the other hand, δ15N of forest specimens should be more positive, since the δ15N of old-growth forests are higher than plants of savanna, várzea, and pastures. Confirming our hypothesis, the δ13C of B. atrox scales of the Tapajós National Forest was approximate −25‰ to −24‰, increased to approximately −23.5‰ to −23.0‰ in the savanna and pasture, and to −21‰ in the várzea, showing an increased contribution of C4-derived carbon. Some specimens of B. atrox had δ15N as high as 18‰, which is much higher than the average δ15N of the snake's prey (7‰), confirming the apex position of B. atrox in the Amazon region. The δ15N values of the forest specimens were 5‰ higher than the savanna specimens, and this difference decreased to 3‰ between the forest and the pasture, and the várzea specimens. Finally, there were not large differences between δ15N values of livers and scales in any of the landscapes, suggesting a constant diet through time, and reinforcing the possibility of the use of snake's scale as a less invasive and non-lethal tissue to analyze.

AB - Since consumers reflect the isotopic composition of an assimilated diet, stable isotopes can be a useful tool to address the feeding ecology of tropical snakes. This is the first study reporting carbon and nitrogen stable isotopic composition of Bothrops atrox (Linnaeus, 1758) living in different landscapes located in the lower Amazon river, encompassing four main natural landscapes of the Amazon: old-growth forests, várzeas (flooded forests), savannas, and pastures. Our null hypothesis is that the δ13C of forest specimens of B.atrox is more negative because forests are dominated by C3 plants, while C4 plants are common in the other landscapes. On the other hand, δ15N of forest specimens should be more positive, since the δ15N of old-growth forests are higher than plants of savanna, várzea, and pastures. Confirming our hypothesis, the δ13C of B. atrox scales of the Tapajós National Forest was approximate −25‰ to −24‰, increased to approximately −23.5‰ to −23.0‰ in the savanna and pasture, and to −21‰ in the várzea, showing an increased contribution of C4-derived carbon. Some specimens of B. atrox had δ15N as high as 18‰, which is much higher than the average δ15N of the snake's prey (7‰), confirming the apex position of B. atrox in the Amazon region. The δ15N values of the forest specimens were 5‰ higher than the savanna specimens, and this difference decreased to 3‰ between the forest and the pasture, and the várzea specimens. Finally, there were not large differences between δ15N values of livers and scales in any of the landscapes, suggesting a constant diet through time, and reinforcing the possibility of the use of snake's scale as a less invasive and non-lethal tissue to analyze.

M3 - Article

JO - Biotropica

JF - Biotropica

SN - 0006-3606

M1 - e13325

ER -