Abstract
While it is well established that ecosystem subsidies—the addition of energy, nutrients, or materials across ecosystem boundaries—can affect consumer abundance, there is less information available on how subsidy levels may affect consumer diet, body condition, trophic position, and resource partitioning among consumer species. There is also little information on whether changes in vegetation structure commonly associated with spatial variation in subsidies may play an important role in driving consumer responses to subsidies. To address these knowledge gaps, we studied changes in abundance, diet, trophic position, size, and body condition of two congeneric gecko species (Lepidodactylus spp.) that coexist in palm dominated and native (hereafter dicot dominated) forests across the Central Pacific. These forests differ strongly both in the amount of marine subsidies that they receive from seabird guano and carcasses, and in the physical structure of the habitat. Contrary to other studies, we found that subsidy level had no impact on the abundance of either gecko species; it also did not have any apparent effects on resource partitioning between species. However, it did affect body size, dietary composition, and trophic position of both species. Geckos in subsidized, dicot forests were larger, had higher body condition and more diverse diets, and occupied a much higher trophic position than geckos found in palm dominated, low subsidy level forests. Both direct variation in subsidy levels and associated changes in habitat structure appear to play a role in driving these responses. These results suggest that variation in subsidy levels may drive important behavioral responses in predators, even when their numerical response is limited. Strong changes in trophic position of consumers also suggest that subsidies may drive increasingly complex food webs, with longer overall food chain length.
Highlights
Spatial subsidies, or the movement of nutrients or energy between ecosystems, can have substantial impacts on the abundance and community composition of primary producers and consumers, leading to large scale alterations in food webs and changes in ecological processes [1,2,3]
The strength of response to variation in subsidy level in terms of consumer abundance has been shown to decline with trophic level of the consumer, with secondary consumers having less marked numerical response to subsidies than herbivores and detritivores [10]
We examined changes in abundance, diet, trophic position, and body condition of two gecko species - the parthenogenetic Lepidodactylus lugubris, and a recently characterized sexual species of Lepidodactylus, hereafter referred to as L. sp. nov. [33,34] - across a strong gradient of seabird subsidies on islets of Palmyra Atoll, Central Pacific
Summary
The movement of nutrients or energy between ecosystems, can have substantial impacts on the abundance and community composition of primary producers and consumers, leading to large scale alterations in food webs and changes in ecological processes [1,2,3]. These subsidies have been shown to affect consumer abundance across a variety of consumer and ecosystem types [4,5,6,7], ranging from large vertebrate predators in desert systems [8] to microbial communities in temperate salt marsh systems [9]. Compensation from other consumers may contribute to lower numerical responses of predators to allochthonous inputs (i.e. [3])
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