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Browsing Department of Biology by Author "Angeloni, Lisa M., advisor"
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Item Open Access Body size, first year breeding, and extra-pair paternity in an island endemic, the Island Scrub-Jay(Colorado State University. Libraries, 2014) Desrosiers, Michelle A., author; Angeloni, Lisa M., advisor; Ghalambor, Cameron K., advisor; Funk, W. Chris, committee member; Sillett, T. Scott, committee member; Crooks, Kevin R., committee memberBody size is a fundamental characteristic that shapes all aspects of an organism's biology. The advantages of large body size may include increased probability of territory acquisition, a critical component of fitness for species that require a territory to breed. Large body size, an indicator of quality, may also be advantageous to males in acquiring mates, including matings outside of a pair bond. Such advantages could be especially important in island systems because habitat saturation may result in strong intra-specific competition for territories, and females may be especially motivated to seek large extra-pair mates to increase the body size of their offspring. We tested the role of body size in determining the ability of an island-endemic bird, the Island Scrub-Jay, Aphelocoma insularis, to acquire a territory and breed in their first spring, as well as to sire extra-pair offspring. We compared the body size of individuals that obtained a territory and bred to those that did not, as well as the body size of social fathers to the extra-pair sires to whom they lost paternity. We found that large body size was important in the siring of extra-pair young. However, body size did not predict the ability of male or female Island Scrub-Jays to acquire a territory and breed in their first year. We suggest that year-to-year variation in environmental conditions and chance may be more important than a large body size or weapon performance in early territory acquisition. Our study provides evidence for a mechanism, specifically female preference for a large body size in males, that supports the observed rates of extra-pair paternity, and demonstrates the general difficulty, even for individuals with a relatively large body size, of acquiring a territory as a yearling in an island system with saturated habitat.Item Open Access Eco-physiological drivers of geographic range limits in two closely related euryhaline fish species(Colorado State University. Libraries, 2021) Marshall, Craig Anthony, author; Ghalambor, Cameron K., advisor; Angeloni, Lisa M., advisor; Myrick, Christopher A., committee member; Earley, Ryan L., committee memberA fundamental goal in evolutionary ecology is to understand the problem of why species occur in some environments and not others. Indeed, a general pattern in nature is that many organisms occupy only a subset of the total range of the environments they are physiologically capable of tolerating. Theory suggests that the abiotic environment can constrain the distributions of species, but testing the relative roles of different mechanisms in shaping species distributions has proven to be a major challenge for both plants and animals. In fish, salinity tolerance is a defining factor in shaping the ranges of many species. Nonetheless, the influence of salinity tolerance on patterns of dispersal and local adaptation are understudied for most species. Euryhaline fishes are capable of acclimating to a wide range of salinities, yet may exhibit a preference for a particular salinity. For example, previous work in euryhaline teleosts indicates that crossing a salinity gradient typically results in increased oxygen uptake, energetic costs, and activation of the stress response. Thus, plastic or evolved tolerance to increased salinity might come at the expense of fitness-related traits (i.e., locomotion, feeding, mate acquisition, etc.), but few studies have investigated the potential for such trade-offs. Maintaining ionic and osmotic homeostasis in the face of a salinity change is critical for survival, but also energetically costly. Efficient osmoregulation relies primarily on the gills, but the process is complicated given that freshwater and saltwater fishes differ in the direction of ion transport through the gill epithelia. Thus, proper restructuring of the gills is fundamental to surviving a salinity transition. This plastic response has been observed in euryhaline fishes, however there is intra- and interspecific variation in the timescale of this process. The endocrine system plays a significant role in salinity acclimation, and in euryhaline teleosts salinity exposure increases the concentration of circulating plasma cortisol to facilitate osmoregulation. Previous work indicates that cortisol is involved in promoting structural changes in both fresh and saltwater gills, but its role in osmoregulation and adaptation differs between the two types. Thus, comparisons of cortisol concentrations can provide insight into the roles of local adaptation and plasticity for euryhaline fishes that exist along a salinity gradient. On the island of Trinidad, the euryhaline guppy (Poecilia reticulata) is confined to freshwater whereas the closely related swamp guppy (Poecilia picta), co-exists with the guppy in freshwater, but also spans into brackish and saltwater. To understand this pattern, we employed an integrative approach to investigate the mechanisms and potential trade-offs that may exist upon exposure to increased ambient salinity as a result of seasonal and daily tidal fluctuations. We examined the effect of a gradual salinity increase on sustained swimming (UCRIT) for P. reticulata and burst swim performance for P. reticulata and P. picta by estimating salinity performance curves (SPCs) using field collected fish. We mimicked the same salinity challenge in the lab and measured the ability of lab reared P. reticulata and P. picta to maintain internal osmolality. In addition, we used a novel method to quantify differences in circulating cortisol levels in P. picta allowing us to infer whether populations along the salinity gradient track stable versus variable salinity levels by adjusting their cortisol levels. Our experiments revealed that P. reticulata can maintain sustained swimming performance across a broad range of salinities and achieves peak performance at the isosmotic point, confirming its euryhaline ability. In contrast, both P. reticulata and P. picta initially experience a drop in burst swimming performance when exposed to salinity challenge, but are able to acclimate over time to higher salinities and re-establish their performance. However, this acclimation response occurs much more quickly in P. picta compared to P. reticulata. The slower acclimation response of P. reticulata could potentially make them more vulnerable to predation risk when they attempt to become established in brackish water, thus contributing to their ranges being restricted to freshwater in Trinidad. Cortisol analyses along the salinity gradient provide support for P. picta having the ability to plastically increase circulating cortisol levels in response to daily fluctuations in salinity. Overall, these results demonstrate how understanding the physiological responses to salinity can inform which mechanisms do and do not contribute to distribution patterns in nature.Item Open Access Reproductive ecology of the island scrub-jay (Aphelocoma insularis)(Colorado State University. Libraries, 2010) Caldwell, Luke, author; Angeloni, Lisa M., advisor; Sillett, T. Scott, committee member; Savidge, Julie A., committee memberThe small population size and limited range of the Island Scrub-Jay make it a species of conservation concern, yet its reproductive ecology is poorly known. From 2008 - 2010 I investigated factors influencing nest success, quantified annual fecundity per pair, and documented breeding behavior. Nest predation was the major factor influencing nest success, accounting for 92 percent of documented nest failures. Nests that were initiated earlier in the breeding season, nests that were higher and more concealed, and nests of breeding pairs that had smaller home ranges had higher daily nest survival. Despite a low estimated daily nest survival rate of 0.945 ± 0.004 SE, the high frequency of renesting allowed pairs to maintain a mean fecundity of 1.13 ± 0.15 SE. Island Scrub-Jays may benefit from an increase in breeding habitat and lower nest predation from the ongoing regeneration of woody vegetation and understory structure following the removal of exotic herbivores on Santa Cruz Island.