Assessing body weight as a predictor of vulnerability for extinction in marine invertebrates

• González-Valdovinos, Marcela Isabel ; del Monte-Luna, Pablo ^[1] ; Trujillo-Millán, Oscar
  1. [1] Centro Interdisciplinario de Ciencias Marinas-IPN
• Localización: Latin American Journal of Aquatic Research, ISSN-e 0718-560X, ISSN 0716-1069, Vol. 47, Nº. 1, 2019, págs. 138-146
• Idioma: inglés
• Títulos paralelos:
  • Body weight as a predictor of vulnerability to extinction in marine invertebrates
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• Resumen
  • español

    In tetrapods, body weight (BW) is a good predictor of extinction risk as it is representative of their life cycle, physiology and ecology: low BW species tend to be less vulnerable compared to larger ones. In marine fish, this relationship is not significant and in marine invertebrates is unknown. In this study, the BW was evaluated as a predictor of extinction vulnerability in marine invertebrates at two taxonomic levels, assuming that endangered species lists indicate true extinction proneness. At the order level, the BW was correlated with the proportion of species in conservation lists with respect to the total number of species (PE) of 17 orders. At the species level, we compared the average BW of listed versus not listed species; logistic regression between the BW and the presence/absence of species in these lists was conducted. We found no relationship between PE and BW, but there was a significant difference in the BW of listed versus not listed species. The relationship between the BW and the presence/absence of species in conservation lists, is weaker in marine invertebrates compared to in tetrapods and fish. Body weight is an unreliable predictor of extinction risk in marine invertebrates.

  • English

    In tetrapods, body weight (BW) is a reliable predictor of extinction risk as it is representative of their life cycle, physiology, and ecology: low BW species tend to be less vulnerable compared to larger ones. In marine fish, excepting elasmobranchs, sturgeon, and salmonids, this relationship is not statistically significant; and in marine invertebrates it is unknown. In this study, the BW was evaluated as a predictor of extinction vulnerability in marine invertebrates at two taxonomic levels, assuming that endangered species lists indicate true extinction risk. At the order level, a correlation was performed between BW and the proportion of species in conservation lists concerning the total number of species (TS) of 17 orders. At the species level, we compared the average BW of listed versus not listed species by fitting a logistic regression between the BW and the presence/absence of species in these lists. We found no relationship between TS and BW, but there was a significant difference in the BW of listed versus not listed species. The relationship between the BW and the presence/absence of species in conservation lists was weaker in marine invertebrates compared to that in tetrapods and fish. The BW is an unreliable predictor of extinction risk in marine invertebrates. Thus conservation efforts should focus on maintaining and restoring the microhabitat of invertebrate species.