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THE MACROBENTHOS OF SEAGRASS MEADOWS IN APALACHEE BAY, FLORIDA, AND THE FEEDING ECOLOGY OF LAGODON RHOMBOIDES (PISCES: SPARIDAE)Unknown Date (has links)
Source: Dissertation Abstracts International, Volume: 40-09, Section: B, page: 4105. / Thesis (Ph.D.)--The Florida State University, 1979.
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COMMUNITY ECOLOGY AND POPULATION DYNAMICS OF LEAF-MINING INSECTS ON NORTH FLORIDA OAKSUnknown Date (has links)
In Chapter I, I tested Opler's (1978) hypothesis regarding leaf miners that feed on oaks with different leaf persistence times by monitoring abundances and species richness of leaf miners on three species of oaks, Quercus falcata, Q. nigra, and Q. hemisphaerica (Fagaceae). No significant differences among oak species was found for either densities or species richness of leaf miners. Moreover, my results show that leaf-mining densities are negatively and significantly correlated with nitrogen content, suggesting the leaf miners may not be sensitive (in terms of population sizes) to seasonal decreases in nitrogen content of oak leaves. / In Chapter II, to test for spatial and temporal differences in mortality factors and survivorship, I experimentally isolated oak trees by transplanting them into agricultural fields. Parasitism by hymenopterans significantly decreases for leaf miners on isolated trees, thus increasing larval survivorship. However, increased survivorship does not result in higher abundances in subsequent generations because on at least small trees, leaf-mining populations are maintained by continual re-immigration with little or no in situ reproduction and colonization. / In Chapter III, five species of oaks were fully enclosed with fine mesh screening or the leaf litter beneath the tree was covered with a plastic cage to test for the contribution of in situ and long range colonization respectively by leaf miners to small trees. My results indicate that both population sizes and species richness of leaf miners are maintained on small trees primarily by long range colonization and little or no in situ colonization and reproduction occurs. This suggests that it may be incorrect to consider leaf-mining populations on small trees as in dynamic equilibrium because they represent mostly transient individuals and do not sustain breeding populations. / In Chapter IV, densities of a leaf miner, Cameraria sp. nov., are experimentally increased on an enclosed oak tree. Even though densities are significantly higher on the caged tree as compared to a control, I find no evidence for intraspecific competition. Instead, survivorship of larval leaf miners increased on the caged tree. These results suggest that parasitism, and possibly predation, regulate population densities of this leaf miner below which competition would usually occur. / In Chapter V, terrestrial invertebrate predators were excluded from oak trees to determine if they are a significant mortality factor for a species of leaf-mining insect, Eriocraniella sp. nov. Larval survivorship was significantly higher and predation lower on trees that had gound-dwelling invertebrate predators excluded. / In Chapter VI, I ascertained whether oak leaves that were mined abscised earlier than undamaged leaves by collecting and examining leaves in leaf baskets placed beneath oak trees. My results indicate that significantly more mined leaves abscise earlier than unmined ones and that propensity of mined leaves to fall depends on size of the oak leaf and phenology of the particular oak species. Life table analysis of two leaf miners, Tischeria purinosella and Brachys ovatus, show that early leaf abscission is an important mortality factor for larval leaf miners. / Source: Dissertation Abstracts International, Volume: 41-05, Section: B, page: 1631. / Thesis (Ph.D.)--The Florida State University, 1980.
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POPULATION AND COMMUNITY ECOLOGY OF LEAF-MINING INSECTS ON OAKUnknown Date (has links)
Source: Dissertation Abstracts International, Volume: 41-01, Section: B, page: 0054. / Thesis (Ph.D.)--The Florida State University, 1979.
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THE PHENOLOGICAL RELATIONSHIPS OF MALE EUGLOSSINE BEES (HYMENOPTERA: APIDAE) AND THEIR ORCHID FRAGRANCE HOSTSUnknown Date (has links)
The orchid-male euglossine bee interaction is mutualistic. The bees pollinate the orchids which provide floral fragrance rewards. I sought evidence for an unambiguous, obligatory, coevolved interaction on the basis of their seasonal and geographic relationships. / Male euglossine bee activity and orchid flowering phenology were monitored for over a year on Barro Colorado Island (BCI) and two other lowland sites in central Panama. Weekly censuses at chemical fragrance baits revealed seasonal changes in bee species richness and abundance; however, other community attributes were relatively constant. Peak activity was from February through June. Variation between the lowland sites was minor. The seasonal patterns were probably the result of local eclosion events. / The flowering phenologies of orchid fragrance hosts were season-dependent. The overall blooming patterns were similar to changes in bee abundance and species richness. / Orchids tapped the majority of euglossine species and individuals for pollinator services each season. Most of those bee species that temporarily lacked orchid fragrance hosts in bloom persisted in the area, continually eclosed from nests, and sought floral fragrance compounds. General geographic distributions of all orchid-pollinator pairs were not mutually inclusive. Nearly a third of the bee species were not pollinators of any local orchid fragrance host. Alternative fragrance sources existed. Thus, bee activity could be independent of orchid fragrance supplies. / There was no evidence for an obligatory, coevolved mutualism. The orchids probably exploited a preexisting behavioral phenomenon of their euglossine pollinators, and have had no obvious effect on their evolution. / Source: Dissertation Abstracts International, Volume: 42-03, Section: B, page: 0891. / Thesis (Ph.D.)--The Florida State University, 1981.
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Ecomorphology and foraging behavior of the yellow warbler (Dendroica petechia)Unknown Date (has links)
Populations of permanent resident "Mangrove" and migratory "Yellow" forms of the insectivorous Yellow Warbler (Dendroica petechia) occur together in mangrove woodlands along the coasts of Middle America in winter. "Mangrove" Warblers are larger than "Yellow" Warblers, with proportionately longer bills, more rounded wings, and shorter legs. "Yellow" Warblers in the temperate zone use aerial foraging techniques more than "Mangrove" Warblers. In winter, "Yellow" Warblers shift their foraging behavior from their breeding pattern towards that of the "Mangrove" Warblers. / Based on intraspecific morphological differences, I made predictions about foraging differences between the two forms, and these predictions were tested by field observations of the two forms when they occurred together in mangrove habitat. As predicted, "Mangrove" Warblers were more adept at flying through the foliage and they foraged more slowly than did "Yellow" Warblers. However, "Mangrove" Warblers did not use aerial foraging actions more than the "Yellow" Warblers did, contrary to the predictions. / The predictions were also tested in a more controlled situation, in which wild-caught birds were used in aviary experiments. In this situation, "Mangrove" Warblers hovered longer and held their bodies more horizontally than did the "Yellow" Warblers. Because of the differences in body angle, "Mangrove" Warblers were able to hover closer to a vertical surface without their wing tips striking it, than could the "Yellow" Warblers. / The superior hovering ability of the "Mangrove" Warblers, detected only in the aviary experiments, confirmed predictions based on morphological comparisons, in spite of the fact that the differences were not evident from field observations even when the two forms occurred in one habitat. In fact, if only "Yellow" Warblers in the temperate zone and "Mangrove" Warblers had been compared, the predictions on foraging action would have been contradicted. To analyze ecomorphological problems it is necessary to minimize confounding factors. Even then, experiments may be necessary to fully understand ecomorphological relationships. / Source: Dissertation Abstracts International, Volume: 49-12, Section: B, page: 5126. / Major Professor: Frances C. James. / Thesis (Ph.D.)--The Florida State University, 1988.
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Experimental study of geographic variation in reproductive and developmental traits of Mallard ducksUnknown Date (has links)
The classical model of the process that maintains intraspecific geographic variation in birds is that phenotypic differences seen in nature reflect genetic adaptations of populations to local environmental conditions and that they are being maintained by natural selection. Wildlife biologists, on the other hand, have usually assumed that, because of the lack of site fidelity among males to breeding areas, many populations of waterfowl are not genetically differentiated. In an attempt to elucidate the genetic and environmental components of geographic variation in reproductive and developmental traits between two populations of Mallard ducks (Anas platyrhynchos), one in southern Manitoba and one in central California, I conducted several experiments. / By monitoring the reproductive performance of wild birds from the two regions reared in common environment under controlled photoperiods in captive conditions, I found that the earlier laying date and lower clutch size observed in nature in the California population are primarily attributable to environmental influences. In addition, there are underlying genetic differences in clutch size between the populations that run counter to differences observed in the wild. Egg size did not differ between populations in the wild or in the common environment. / When reared in a common environment, birds from the wild California population fledged at a younger age than those from Manitoba. These differences disappeared among offspring from captive breeding crosses, reared in a common environment, suggesting that variation in growth rates between the populations in the wild is environmentally induced. When young from eggs taken from the two wild populations were transplanted between localities at different times in the breeding season, some population differences were retained, but much of the variation in development could be attributed to differences in nesting phenology and local environmental conditions. / These results suggest that most of the variation in reproductive and developmental traits between Mallard populations is environmentally induced. However, there is substantial genetic variation in traits within regions. / Source: Dissertation Abstracts International, Volume: 49-08, Section: B, page: 2992. / Major Professor: Frances Crews James. / Thesis (Ph.D.)--The Florida State University, 1988.
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Interactions among three herbivores and their effects on a shared host plantUnknown Date (has links)
For four years, I quantified the effects of three herbivores--a specialist chrysomelid beetle, Blepharida rhois, a specialist stem borer, Oberea ocellata, and whitetail deer--on the growth, mortality and fruit production of smooth sumac, Rhus glabra. I used selective exclosures to create ramets within a sumac clone that had different herbivore histories. Each year, the past history of a ramet was incorporated into herbivore treatments. I also documented how use of ramets by each herbivore related to previous attack by other herbivores. I found both negative and positive associations between species. Several experiments were designed to determine the underlying mechanisms behind these associations. / I found that chrysomelid herbivory significantly reduced ramet growth, survivorship and fruit production. These negative effects were persistent, lasting for a minimum of two years after attack had ceased. Deer browse was consistently associated with increased vegetative growth and sometimes with increased fruit production. These benefits of browse may be attributable to the selection by deer of larger ramets, rather than to positive effects of browse. There did not seem to be any strong interaction between beetle and deer attack in any year. Over four years, chrysomelid beetles exerted the strongest selective pressure on sumac both as a result of direct and indirect effects. Using common garden experiments, I determined that there were both plant genotypic and environmental factors contributing to sumac resistance to beetle attack. Because of this result, both diversifying and frequency-dependent selection could operate to maintain genetic variability in beetle resistance within the sumac population. / Source: Dissertation Abstracts International, Volume: 49-12, Section: B, page: 5126. / Major Professor: Daniel S. Simberloff. / Thesis (Ph.D.)--The Florida State University, 1988.
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The ecology of epifaunal communities on prop roots of the red mangrove, Rhizophora mangleUnknown Date (has links)
Invertebrate communities growing epifaunally on prop roots of red mangroves (Rhizophora mangle) were studied to determine what processes produce patterns of distribution and abundance. Root epifauna were compared among channels in a mangrove island in the Indian River, Florida. Except for flow rate, physical factors did not differ among channels and were not responsible for qualitative and quantitative differences in species' abundances. Neither did flow rate per se explain distributional patterns as survival of transplanted adults and early recruits was similar in channels experiencing very different flow. Epifaunal distributions are explained by patterns of larval supply and recruitment. Species with long-lived planktotrophic larvae were distributed evenly throughout the island. Species with short-lived lecithotrophic larvae were distributed heterogeneously with recruitment patterns and adult abundances reflecting locations of source populations and predominate flow patterns. / Dynamics of a mangrove root epifaunal community in the Florida Keys were studied for three years. Despite long-lived species, low recruitment rates, and little climatic seasonality, populations of the dominant epifauna showed large temporal fluctuations in abundance. Species commonly disappeared from roots and dominant species changed continually. The stochasticity of this community resulted from seasonal growth, predation, disturbance, and variable recruitment. / Comparisons of recruitment on ceramic tiles, wooden dowels, and Rhizophora roots revealed that caution must be used in modeling natural substrata with artificial surfaces. Artificial surfaces were useful, however, in answering ecological questions related to scale. / Eight mangrove root sponge species were tested for allelopathic effects on settling larvae. There was little evidence of recruitment inhibition for any species. On the contrary, recruitment of several species was higher in the presence of sponges. Flow effects and patchy larval supply were more important in structuring the communities than were allelopathic effects of resident sponges. / Dispersal of swimming and non-swimming larvae of the ascidian Ecteinascidia turbinata was compared. Swimming larvae traveled significantly shorter distances than non-swimming larvae. Swimming appeared to prevent advection of the larvae and enables populations to persist in a patchy mangrove habitat. / Source: Dissertation Abstracts International, Volume: 51-04, Section: B, page: 1611. / Major Professors: Craig M. Young; Richard N. Mariscal. / Thesis (Ph.D.)--The Florida State University, 1990.
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BENTHIC ECOLOGY OF TIMBALIER BAY, LOUISIANA, AND ADJACENT OFFSHORE AREAS IN RELATION TO OIL PRODUCTIONUnknown Date (has links)
Source: Dissertation Abstracts International, Volume: 35-12, Section: B, page: 5755. / Thesis (Ph.D.)--The Florida State University, 1974.
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EVOLUTIONARY ECOLOGY STUDIES ON SALAMANDERS OF THE GENUS DESMOGNATHUS. PART I: COMPETITIVE EXCLUSION ALONG A HABITAT GRADIENT BETWEEN TWO SPECIES OF SALAMANDERS (DESMOGNATHUS) IN WESTERN FLORIDA; PART II: LIFE HISTORY, GROWTH, AND BODY SIZE VARIATION IN POPULATIONS OF A STREAMSIDE SALAMANDER (DESMOGNATHUS BRIMLEYORUM) ON ADJACENT MOUNTAINSUnknown Date (has links)
Source: Dissertation Abstracts International, Volume: 36-08, Section: B, page: 3753. / Thesis (Ph.D.)--The Florida State University, 1975.
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