Browsing by Subject "Fish"
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Item Open Access Influence of Substrate on Coral Reef Fish Communities(2008-06-23) Neely, Karen LynnCoral reef fish coexist in a state of high diversity that has not been successfully explained by niche diversification, larval supply, differential mortality, or a suite of other proposed factors. These processes are all occurring on a diverse substrate that would be expected to affect the abundance and distribution of fish by directing habitat preferences as well as affecting competitive and predatory success. I conducted correlational studies on healthy and degraded Caribbean reefs that addressed fish abundances at the levels of community, species, and age class. I also experimentally tested habitat preferences in two ways: choice experiments on adults of common species that determined preferences for live coral and rugosity in an isolated environment, and monitoring of artificial reefs differing in live coral cover that tested habitat selection of adults and juveniles in the field. These observations all show that live coral had no effect on community parameters such as abundance or diversity, but that rugosity was positively related to species richness. However, these measures of the community masked differences at the species and age class level. A handful of species exhibited positive or negative preferences for live coral, but these selections did not follow a taxonomic or trophic-level classification. Species within the genus Stegastes, for example, could either aggregate towards or avoid live coral. One species even reversed its habitat preference as it matured. Field distributions were not determined solely by these habitat preferences, but inclusion of competitive interactions into a multi-factorial model explained distribution of some species. Results suggest that changes in live coral cover, an increasingly common phenomenon, would not affect fish at a community level, but could affect a few species through changes to recruitment or alteration of competitive interactions.
Item Open Access Recognize fish as food in policy discourse and development funding.(Ambio, 2021-01-16) Nowlin, M; Bennett, A; Basurto, X; Virdin, J; Lin, X; Betances, S; Smith, M; Roady, SThe international development community is off-track from meeting targets for alleviating global malnutrition. Meanwhile, there is growing consensus across scientific disciplines that fish plays a crucial role in food and nutrition security. However, this 'fish as food' perspective has yet to translate into policy and development funding priorities. We argue that the traditional framing of fish as a natural resource emphasizes economic development and biodiversity conservation objectives, whereas situating fish within a food systems perspective can lead to innovative policies and investments that promote nutrition-sensitive and socially equitable capture fisheries and aquaculture. This paper highlights four pillars of research needs and policy directions toward this end. Ultimately, recognizing and working to enhance the role of fish in alleviating hunger and malnutrition can provide an additional long-term development incentive, beyond revenue generation and biodiversity conservation, for governments, international development organizations, and society more broadly to invest in the sustainability of capture fisheries and aquaculture.Item Open Access Salmon in Trees? Large Woody Debris in Green Mountain National Forest Streams(2008-04-25T16:59:23Z) Harford, AmandaLarge woody debris (LWD) is an important component of stream ecosystems, especially in regards to fish habitat. It provides shelter for juvenile fish, provides spawning gravel for adult salmon and trout, and is a contributor to organic matter in the stream. Atlantic salmon (Salmo salar) are of particular concern in Green Mountain National Forest (GMNF) in Vermont because they are an endangered species. The fisheries crew at GMNF is working to restore salmon and trout populations in the Forest. This study focused on collecting data on LWD and summarizing the characteristics and organization of LWD in streams in GMNF. I collected data on instream LWD and riparian zone forest characteristics. I aimed to determine whether basal area in the riparian zone could predict LWD volume instream, whether coniferous or deciduous riparian basal area contributed more to instream LWD, and whether the species composition of riparian zones and that of instream LWD was similar. I used linear models and generalized linear models (GLMs) to answer these questions quantitatively. In GMNF, riparian basal area is a significant predictor of LWD volume at the 0.01 significance level. Deciduous basal area is also a significant predictor at the 0.01 level and is more strongly correlated to LWD volume than coniferous basal area. In addition, the species composition of riparian zones and instream LWD is similar. Deciduous basal area and coniferous basal area are highly correlated with their respective LWD volumes. These results provide prediction and prioritization capabilities for the fisheries crew in GMNF. In addition to the results found here, the Northeastern Course Woody Debris model (NE-CWD) created by researchers at the U.S. Forest Service Northern Research Station is being run with the data collected. When the results are available, I will compare them to the field data I collected to determine whether the fisheries crew needs to adjust management activities for LWD. This project provided new products to the U.S. Forest Service in Vermont that were not previously available and will help to adjust the management plan to better manage fish habitat in GMNF, Vermont.