Abstract
Aquatic invertebrate biomass estimations are often important in ecological and biological studies. Biomass may be determined by regression models between body and case dimensions and dry mass. Using linear, exponential and power regressions we analyzed the relationship between body and case dimensions and the biomass of Phylloicus elektoros Prather, 2003. Furthermore, we used cross-validation to evaluate the predictions of our models and of the models developed for Phylloicus sp. from southeastern Brazil. We measured four body dimensions (head capsule width, interocular distance, body and pronotum length) of 152 larvae and two case dimensions (width and length) of 45 cases. Case width provided better fit with biomass than case length in all model classes. Body length provided the best biomass prediction. Biomass predictions using models proposed in the literature were 75% lower than the observed values. The power model provided the best fit between body and case dimensions with biomass. However, exponential models also provided good biomass estimates. We observed a close fit between body and case dimensions and biomass, but the predictive power of the models was low (~40%). The predictive power of models proposed in the literature was much worse than those built from local data and thus we do not recommend their use to predict the biomass of organisms from different regions.
Highlights
Population density is used in many ecological studies as a measure of ecological importance
Biomass may be determined by regression models between body and case dimensions and dry mass
Aquatic invertebrate biomass has been used in ecological studies to determine secondary production, transference of energy in the food chain, life history and growth rate (BENKE 1996, BURGHERR & MEYER 1997)
Summary
Population density is used in many ecological studies as a measure of ecological importance. Coexisting species may differ in body size and have different levels of ecological importance with respect to a particular ecosystem function (WOODWARD et al 2005). For this reason, biomass determination can be very important in ecological studies. The regression models for body dimensions and biomass are generally taxon-specific They are dependent on the genetic makeup of individuals and the environmental conditions of the geographical area studied, (BENKE et al 1999), and for that reason caution should be taken when extrapolating these regressions from one place to another (BURGHERR & MEYER 1997). 2014 Sociedade Brasileira de Zoologia | www.sbzoologia.org.br | www.scielo.br/zool All content of the journal, except where identified, is licensed under a Creative Commons attribution-type BY-NC
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