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Population dynamics of coral-reef fishes : spatial variation in emigration, mortality, and predationOverholtzer-McLeod, Karen L. 09 June 2003 (has links)
Understanding the dynamics of open marine populations is difficult.
Ecological processes may vary with the spatial structure of the habitat, and this
variation may subsequently affect demographic rates. In a series of observational
and experimental studies in the Bahamas, I examined the roles of emigration,
mortality, and predation in the local population dynamics of juvenile coral-reef
fishes. First, I documented mortality and emigration rates in populations of
bluehead and yellowhead wrasse. Assuming that all losses were due solely to
mortality would have significantly underestimated survivorship for both species on
patch reefs, and for yellowheads on continuous reefs. Mortality differed between
species, but emigration did not differ between species or reef types. Mortality of
blueheads was density-dependent with respect to both conspecific density and total
wrasse density on continuous reefs. In contrast, mortality of yellowheads varied
inversely with the density of blueheads on patch reefs. Emigration rates varied
inversely with distance to the nearest reef inhabited by conspecifics. In subsequent
experiments, I manipulated densities of yellowhead wrasse and beaugregory
damselfish, and determined that the relationship between density and mortality
varied with reef spatial structure. On natural reefs, mortality rates of the wrasse
were highly variable among reefs. On artificial reefs, mortality rates of both
species were density-dependent on spatially isolated reefs, yet high and density-independent
on aggregated reefs. Heterogeneity in the spatial structure of natural
reefs likely caused variation in predation risk that resulted in high variability in
mortality rates compared to artificial reefs. A final experiment demonstrated that a
single resident predator caused substantial mortality of the damselfish, regardless of
reef spacing. Patterns suggested that resident predators caused density-dependent
mortality in their prey through a type 3 functional response on all reefs, but on
aggregated reefs this density dependence was overwhelmed by high, density-independent
mortality caused by transient predators. These results (1) suggest
post-settlement movement should be better documented in reef-fish experiments,
(2) demonstrate that the role of early post-settlement processes, such as predation,
can be modified by the spatial structure of the habitat, and (3) have ramifications
for the implementation of marine reserves. / Graduation date: 2004
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Testing the ArcGIS Marine Data Model : busing spatial information to examine habitat utilization patterns of reef fish along the west coast of HawaiiAaby, Alyssa Anne 06 March 2007 (has links)
In response to anthropogenic pressures that have degraded habitat and put
marine resources at risk (Leslie et al., 2003; Mumby et al., 2001; Puniwai et al., 2003),
there has been a growing interest in the use of marine protected areas (MPAs) as a
management tool to help slow, prevent or reverse negative anthropogenic changes.
Recent studies have shown that the most effective MPAs are those which represent a
full range of habitat types (Leslie et al., 2003; Carr et al., 2003). Yet, available
scientific research has not evaluated the near-shore marine habitat utilization along the
West Coast of Hawaii at the large-scales utilized by resource managers. Thus, this
study focused on identifying the regional habitat utilization patterns for selected
Hawaiian reef fish species to determine the most effective combination of habitat
types. In addition, the habitat utilization analysis was used as one of several case
studies to test the ArcGIS Marine Data Model���s (MDM) (Wright et al., 2001)
adaptability to work with real-world data and perform real-world analyses, as well as
meet the five goals outlined by the MDM Working Group (Wright et al., 2001).
Created in 2001, by researchers from Oregon State University, Duke University,
NOAA, the Danish Hydrologic Institute and ESRI, the MDM is a geodatabase
template tailored to meet the needs of the marine GIS user community. Ultimately,
this analysis will aid marine managers as it establishes correlations between small and
large-scale habitat information, which provides a regional look at habitat utilization.
Also, by testing the functionality of the MDM, its strengths and weaknesses will be
identified so that it can be improved to better serve the marine GIS user community. / Presentation date: 2004-06-08 / Graduation date: 2005
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Movement patterns, stock delineation and conservation of an overexploited fishery species, Lithognathus Lithognathus (Pisces: Sparidae)Bennett, Rhett Hamilton January 2012 (has links)
White steenbras Lithognathus lithognathus (Pisces: Sparidae) has been a major target species of numerous fisheries in South Africa, since the late 19th century. Historically, it contributed substantially to annual catches in commercial net fisheries, and became dominant in recreational shore catches in the latter half of the 20th century. However, overexploitation in both sectors resulted in severe declines in abundance. The ultimate collapse of the stock by the end of the last century, and the failure of traditional management measures to protect the species indicate that a new management approach for this species is necessary. The species was identified as a priority for research, management and conservation in a National Linefish Status Report. Despite knowledge on aspects of its biology and life history, little is known about juvenile habitat use patterns, home range dynamics and movement behaviour in estuaries. Similarly, the movement and migration of larger juveniles and adults in the marine environment are poorly understood. Furthermore, there is a complete lack of information on its genetic stock structure. Such information is essential for effective management of a fishery species. This thesis aimed to address the gaps in the understanding of white steenbras movement patterns and genetic stock structure, and provide an assessment of its current conservation status. The study adopted a multidisciplinary approach, incorporating a range of methods and drawing on available information, including published literature, unpublished reports and data from long-term monitoring programmes. Acoustic telemetry, conducted in a range of estuaries, showed high site fidelity, restricted area use, small home ranges relative to the size of the estuary, and a high level of residency within estuaries at the early juvenile life stage. Behaviour within estuaries was dominated by station-keeping, superimposed by a strong diel behaviour, presumably based on feeding and/or predator avoidance, with individuals entering the shallow littoral zone at night to feed, and seeking refuge in the deeper channel areas during the daytime. Conventional dart tagging and recapture data from four ongoing, long-term coastal fish tagging projects, spread throughout the distribution of this species, indicated high levels of residency in the surf zone at the late juvenile and sub-adult life stages. Consequently, juvenile and sub-adult white steenbras are vulnerable to localised depletion, although they can be effectively protected by suitably positioned estuarine protected areas (EPAs) and marine protected areas (MPAs), respectively. It has been hypothesized that adult white steenbras undertake large-scale coastal migrations between summer aggregation areas and winter spawning grounds. The scale of observed coastal movements was correlated with fish size (and age), with larger fish undertaking considerably longer-distance coastal movements than smaller individuals, supporting this hypothesis. Given the migratory behaviour of adults, and indications that limited spawning habitat exists, MPAs designed to protect white steenbras during the adult life stage should encompass all known spawning aggregation sites. The fishery is plagued by problems such as low compliance and low enforcement capacity, and alternative management measures, such as seasonal closure, need to be evaluated. Despite considerable conventional dart tagging effort around the coastline (5 782 fish tagged) with 292 recaptures there remains a lack of empirical evidence of fish migrating long distances (> 600 km) between aggregation and spawning areas. This uncertainty in the level of connectivity among coastal regions was addressed using mitochondrial DNA sequencing and genotyping of microsatellite repeat loci in the nuclear genome, which showed no evidence of major geographic barriers to gene flow in this species. Samples collected throughout the white steenbras core distribution showed high genetic diversity, low genetic differentiation and no evidence of isolation by distance or localised spawning. Although historically dominant in several fisheries, analysis of long-term commercial and recreational catch data for white steenbras indicated considerable declines and ultimately stock collapse. Improved catch-per-unit-effort in two large MPAs subsequent to closure confirmed that MPAs can be effective for the protection of white steenbras. However, the current MPA network encompasses a low proportion of sandy shoreline, for which white steenbras exhibits an affinity. Many MPAs do not prohibit recreational shore angling, which currently accounts for the greatest proportion of the total annual catch. Furthermore, EPAs within the juvenile distribution protect a negligible proportion of the total available surface area of estuaries – habitat on which white steenbras is wholly dependent. Despite some evidence of recent increases in abundance in estuaries and the surf zone in certain areas, white steenbras meets the criteria for “Endangered” on the IUCN Red List of Threatened Species, and for “Protected species” status on the National Environmental Management: Biodiversity Act of South Africa. The species requires improved management, with consideration for its life-history style, estuarine dependency, surf zone residency, predictable spawning migrations and its poor conservation status. The multidisciplinary approach provides valuable information towards an improved scientific basis for the management of white steenbras and a framework for research that can be adopted for other overexploited, estuarine-associated coastal fishery species.
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On the underwater visual census of Western Indian Ocean coral reef fishesWartenberg, Reece January 2012 (has links)
This study conducted the first high-resolution investigation of the ichthyofaunal assemblages on a high-latitude coral reef in the Western Indian Ocean (WIO). Two-Mile reef, in South Africa, is a large, accessible patch-reef, and was selected as a candidate study area. Although the effect of season in structuring coral reef fish communities is most-often overlooked, the relationship between these fish communities and their habitat structure has been investigated. In South Africa, however, neither of these potential community-level drivers has been explored. As coral reefs worldwide are faced with high levels of usage pressure, nondestructive underwater visual census (UVC) techniques were identified as the most appropriate survey methods. This study had two primary aims that were; (1) to identify the most suitable technique for the UVC of coral reef fishes, and to test variations of the selected technique for appropriateness to implementation in long-term monitoring programs, and (2) to determine if possible changes to ichthyofaunal community structure could be related to trends in season and/or habitat characteristics. A review of the literature indicated that the most appropriate UVC method for surveying epibenthic coral reef fishes is underwater transecting. To compare the traditional slate-based transects to variations that implement digital image technology, slate transects were compared to a first-attempt digital photographic transect technique, and digital videographic transects. Videographic transects produced the most favourable species richness, abundance, and standard deviations of the three techniques. Diversity was not significantly different between transect techniques. The minimum required sample size was lowest for videographic transects (17 replicates), intermediate for photographic transects (27 replicates) and highest for slate transects (37 replicates). Videographic and photographic transects required greater analysis time to generate counts, but required lower observer training time. While videographic transects produced the lowest proportion of species considered unidentifiable, all three transect techniques showed similar functionality to surveying epibenthic coral reef fishes. Videographic transects were therefore identified as the most appropriate UVC technique for this study. Videographic transects at shallow (6 – 14 m), intermediate (14 – 22 m) and deep (22 – 30 m) depths in mid-winter and mid-summer, sampled a total of 41 families consisting of 209 species and 18172 individuals, dominated by pomacentrids in abundance and labrids in richness. The fish assemblages on Two-Mile Reef were found to be similar in composition to lower-latitude WIO reefs. Overall ichthyofaunal abundance and richness was significantly higher in summer than in winter, and was higher at shallow sites than at intermediate and deep sites. A multivariate approach confirmed differences between seasons at shallow depths but not between seasons at intermediate and deep depths. The fish assemblages on Two-Mile Reef can therefore be described as being comprised of four relatively distinct communities: a shallow, winter community; a shallow, summer community; a year-round intermediate community; and a year-round deep community. The distributions of discriminating species indicated that high abundances of the algal-feeding pomacentrids are observed only at shallow and intermediate sites while high abundances of the zooplanktivorous serranid subfamily, the Anthiinae, are observed predominantly at deep sites. Assessment of all measured supplementary variables indicated that of all factor combinations, observed patterns could be ascribed most strongly to depth. Quantification of reef characteristics indicated that as depth increases, habitat complexity decreases, benthic communities shift from dense coral domination to sparse sponge domination, and algal biomass and cover decreases. The ability of the videographic transect technique to detect changes in community structure with season and depth indicates that season and depth should be accounted for in future high-latitude ichtyofaunal surveys, and that the videographic transect technique is suitable for implementation in long-term monitoring programs on coral reefs. The similarity in fish assemblages between Two-Mile Reef and lower latitude regions suggests that the protocol for surveying epibenthic coral reef fishes, resulting from this study, is relevant throughout the continental WIO.
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