Abstract
Conservation agencies are often faced with the difficult task of prioritizing what recovery actions receive support. With the number of species under threat of decline growing globally, research that informs conservation priorities is greatly needed. The relative vulnerability of cryptic or nomadic species is often uncertain, because populations are difficult to monitor and local populations often seem stable in the short term. This uncertainty can lead to inaction when populations are in need of protection. We tested the feasibility of using differences in condition indices as an indication of population vulnerability to decline for related threatened Australian finch sub-species. The Gouldian finch represents a relatively well-studied endangered species, which has a seasonal and site-specific pattern of condition index variation that differs from the closely related non-declining long-tailed finch. We used Gouldian and long-tailed finch condition variation as a model to compare with lesser studied, threatened star and black-throated finches. We compared body condition (fat and muscle scores), haematocrit and stress levels (corticosterone) among populations, seasons and years to determine whether lesser studied finch populations matched the model of an endangered species or a non-declining species. While vulnerable finch populations often had lower muscle and higher fat and corticosterone concentrations during moult (seasonal pattern similar to Gouldian finches), haematocrit values did not differ among populations in a predictable way. Star and black-throated finch populations, which were predicted to be vulnerable to decline, showed evidence of poor condition during moult, supporting their status as vulnerable. Our findings highlight how measures of condition can provide insight into the relative vulnerability of animal and plant populations to decline and will allow the prioritization of efforts towards the populations most likely to be in jeopardy of extinction.
Highlights
Today’s conservationists are often faced with the difficult task of promoting species recovery plans to a wide variety ofstakeholders in order to fund conservation programmes (Bayon and Jenkins, 2010)
We compared body condition, haematocrit and stress levels among populations, seasons and years to determine whether lesser studied finch populations matched the model of an endangered species or a non-declining species
While vulnerable finch populations often had lower muscle and higher fat and corticosterone concentrations during moult, haematocrit values did not differ among populations in a predictable way
Summary
Today’s conservationists are often faced with the difficult task of promoting species recovery plans to a wide variety ofstakeholders in order to fund conservation programmes (Bayon and Jenkins, 2010). Key information on the status and ecology of rare species is difficult to obtain or incomplete, leading to uncertainty about the direction and extent of. Conservation Physiology Volume 3 2015 possible recovery actions (Bottril et al, 2009). Owing to the number of species and populations potentially under threat of further declines, research and monitoring that informs conservation priorities is greatly needed to support the decisionmaking process and promote recovery action funding (Marris, 2007; McCarthy et al, 2012). The uncertainty regarding the response of populations to management or environmental factors can lead to poor management decisions, and knowledge that assists in the prediction of population responses to change can aid significantly in the decision-making process (Regan et al, 2005)
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