Noticias Noticias

Intact but empty forests? Patterns of hunting induced mammal defaunation in the tropics

Tropical forests are increasingly degraded by industrial logging, urbanization, agriculture, and infrastructure, with only 20% of the remaining area considered intact. However, this figure does not include other, more cryptic but pervasive forms of degradation, such as overhunting. Here, the spatial patterns of mammal defaunation in the tropics are quantified and mapped using a database of 3,281 mammal abundance declines from local hunting studies. Simultaneously population abundance declines and the probability of local extirpation of a population were accounted for as a function of several predictors related to human accessibility to remote areas and species' vulnerability to hunting. An average abundance decline of 13% across all tropical mammal species was estimated, with medium-sized species being reduced by >27% and large mammals by >40%. Mammal populations are predicted to be partially defaunated (i.e., declines of 10%–100%) in ca. 50% of the pantropical forest area (14 million km2), with large declines (>70%) in West Africa. According to these projections, 52% of the intact forests (IFs) and 62% of the  wilderness areas (WAs) are partially devoid of large mammals, and hunting may affect mammal populations in 20% of protected areas (PAs) in the tropics, particularly in West and Central Africa and Southeast Asia. The pervasive effects of overhunting on tropical mammal populations may have profound ramifications for ecosystem functioning and the livelihoods of wild-meat-dependent communities, and underscore that forest coverage alone is not necessarily indicative of ecosystem intactness. The authors call for a systematic consideration of hunting effects in (large-scale) biodiversity assessments for more representative estimates of human-induced biodiversity loss. informacion[at]ebd.csic.es: Benítez-Lopez et al (2019) Intact but empty forests? Patterns of hunting-induced mammal defaunation in the tropics. PLoS Biol https://doi.org/10.1371/journal.pbio.3000247


https://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.3000247
Promedio (0 Votos)

Últimas noticias Últimas noticias

La variabilidad genética del cangrejo rojo americano revela su proceso de invasión

Un estudio ha descrito cómo han afectado los factores históricos, humanos y ambientales a la diversidad genética de las poblaciones invasoras del cangrejo rojo americano, Procambarus clarkii, en la...

Deficiencia en la pigmentación mixta producida por melaninas en loros

Los loros y otras aves emparentadas (Orden Psittaciformes) han evolucionado una capacidad exclusiva para sintetizar pigmentos poliénicos denominados psittacofulvinas en los folículos de las plumas,...

Una mayor diversidad epigenética podría aliviar la pérdida de diversidad genética

La diversidad genética se ha considerado tradicionalmente el principal determinante del cambio evolutivo, mientras que en la actualidad se reconoce la diversidad epigenética como una capa de...