Etnobiologia dos catadores do caranguejo-uçá Ucides cordatus (Linnaeus, 1763), no manguezal do Rio Itanhaém, SP : Bases para a educação e gestão. /

Souza, Fernanda Vargas Barbi de

January 2019

Orientador: Marcelo Antonio Amaro Pinheiro / Resumo: A Etnobiologia é uma disciplina que auxilia a melhor compreensão dos processos de investigação que envolvem o homem e a natureza, trazendo informações importantes ao manejo e gestão dos ecossistemas e recursos naturais. O caranguejo-uçá é um crustáceo decápodo endêmico de manguezais, intimamente associado à sua vegetação arbórea, encontrando-se distribuído por todo este ecossistema no litoral brasileiro. Desempenha importante papel nos processos ecossistêmicos, participando ativamente da bioturbação dos sedimentos, do fluxo da matéria orgânica e energia, afetando toda a cadeia trófica dos ambientes costeiros. Dessa forma, o presente estudo visa levantar informações socioeconômicas, bem como conhecimentos etnobiológicos dos catadores do caranguejo-uçá do Estuário do Rio Itanhaém (SP), relativos aos eventos biológicos (crescimento e reprodução) desta espécie, bem como do período de defeso, técnicas e localização das áreas de captura e sobre sua percepção quanto a conservação dos manguezais. Mais do que isso, tais resultados do conhecimento empírico foram confrontados aos dados científicos disponíveis na literatura carcinológica. Como hipótese inicial indicamos que os dados etnocarcinológicos do caranguejo-uçá (biologia, extração e período de defeso) fossem confirmados em mais de 70% pelos dados científicos já obtidos. Os catadores de caranguejo conhecidos, bem como outros por eles indicados (técnica snow ball) foram indagados através de um questionário quanto a ocorrência mensa... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Ethnobiology is a discipline that contributes to a better understanding of research processes that involve people and nature, bringing important information to the management of ecosystems and natural resources. The uçá-crab is a decapod crustacean endemic to mangroves, closely associated with its arboreal vegetation, found and distributed throughout this ecosystem on the Brazilian coast. This kind of crab has an important role in ecosystem processes, actively participating in bioturbation of the sediments and of the organic matter flow and energy, affecting the entire trophic chain of coastal environments. That way, the present study aims to collect socioeconomic information, as well as ethnobiological knowledge of the uçá-crab gatherers from the Itanhaém river estuary (SP), related to the biological events (growth and reproduction) of this crab species. Besides, we collected information about closed season, techniques and location of the gather areas and the perception of the crab gatherers about mangrove conservation. More than that, the results of the empirical knowledge have been compared with the scientific data available in the carcinological literature. As an initial hypothesis we indicate that the ethnocarcinological data of the uçá-crab (biology, extraction and closed season) were confirmed in more than 70% by the scientific data already obtained. The crab gatherers, as well as others indicated by them (snow ball technique), were asked monthly, for a year, by way of... (Complete abstract click electronic access below) / Mestre

Caranguejeiros

Estuário

Etnologia.

Pesca.

Preservação Preservação.

Crab gatherers

Estuary

Ethnology

Fishing

Preservation

A Novel Interaction: The thin stripe hermit Crab, Clibanarius vittatus, kills the Florida crown conch, Melongena corona, for its shell

Unknown Date

The hermit crab Clibanarius vittatus kills Melongena corona solely to acquire a better fitting shell. This finding is contrary to previous studies, which found that hermit crabs of other species cannot kill gastropods or, in most instances, remove freshly dead gastropods from their shells. This interaction cannot be classified as predation because Melongena tissue was never consumed. Clibanarius killed Melongena only when by doing so they could trade up to a better fitting shell. It cannot be classified as competition because there is no opportunity for Melongena to gain from the interaction. Therefore the term “lethal eviction” is hereby proposed for this interaction. The ability to kill a gastropod to obtain a superior shell gives Clibanarius vittatus an evolutionary advantage over other hermit crab species. It is not known if the outcome of this interaction is widespread where both species occur or if it is confined to the study area. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2017. / FAU Electronic Theses and Dissertations Collection

Crabs--Behavior.

Crab culture.

Predation (Biology)

Adaptation (Physiology)

Aquatic ecology.

Intertidal ecology.

Conservation biology.

Effets des rejets d’eaux usées domestiques sur la physiologie et l'écologie des crabes de mangrove, Sesarmidae et Ocypodidae / Effects of domestic effluent discharges on mangrove crab, Sesarmidae and Ocypodidae physiology and ecology

Theuerkauff, Dimitri

23 November 2018

Les mangroves sont de plus en plus mentionnées comme outil de bioremédiation potentiel dans le traitement des eaux usées (EU). Actuellement, les effets des rejets d’EU sur la macrofaune, et plus particulièrement sur les crabes de mangrove, ne sont pas clairs. Ces espèces sont dites ingénieurs de cet écosystème, notamment grâce à leur activité de bioturbation qui permet, entre autres, l’infiltration des EU dans le sédiment via leurs terriers. L’objectif ont donc été d’étudier l’impact du rejet d’EU domestiques sur la physiologie (osmorégulation, métabolisme et balance oxydative) de 3 espèces de crabe (2 Sesarmidae et 1 Ocypodidae) par une approche combinant expérimentations en laboratoire et sur le terrain en utilisant un site pilote expérimental sur l’île de Mayotte. Ces crabes qui vivent dans la zone intertidale ont un mode de vie bimodal et font fréquemment face à des salinités variables. Ils sont de bons hyper-hypo-osmorégulateurs et sont adaptés à cette vie à l’interface entre terre et eau aussi bien au niveau de la régulation ionique que de la respiration. Les résultats indiquent que la densité des terriers diminue dans les zones d’écoulement des EU et que la communauté des espèces est modifiée avec la dominance de Parasesarma guttatum (PG) qui n’est pas une espèce bioturbatrice. Les EU induisent donc une modification potentielle du fonctionnement de l’écosystème. PG diminue son métabolisme alors que les deux autres espèces étudiées l’augmentent significativement. Immergées dans les EU, les trois espèces étudiées présentent des atteintes de la fonction osmorégulatrice (activité de la Na+/K+-ATPase et épaisseur d’épithélium branchiale) et de la balance oxydative (formation d’espèces réactives de l’oxygène dans l’hémolymphe et enzymes antioxydantes des branchies) en laboratoire mais des effets moins marqués sont observés chez les crabes maintenus in situ dans des terriers artificiels. Les biomarqueurs étudiés peuvent ainsi être utilisés pour mesurer l’état physiologique des crabes soumis à des rejets d’EU domestiques. Ces atteintes qui entraînent des coûts métaboliques supplémentaires peuvent mener à la réduction de leur fitness, contribuant à expliquer les observations écologiques. De plus, les résultats montrent que les crabes violonistes sont les plus sensibles, suivis des deux Sesarmidae alors que PG semble mieux adapté pour éviter les EU. Si aucun dysfonctionnement majeur n’a été observé à l’échelle de l’écosystème jusqu’à présent, il convient de maintenir un suivi régulier de ces espèces, en tenant compte de leur spécificité en termes d’activité bioturbatrice et de santé physiologique. / Mangroves are increasingly proposed as a bioremediation tool for wastewater (WW) treatment. However, this practice can impact mangrove crabs which are key engineer species of the ecosystem through their bioturbation activities. Their burrows are directly involved in the bioremediation process allowing WW infiltration in the sediment. This study aimed to determine the effects of WW on the physiology (osmoregulation, bioenergetics, oxidative balance) of 3 species of crabs (2 Sesarmidae and 1 Ocypodidae) with laboratory and in situ experiments (burrow density and caging experiment in an experimental area with controlled WW releases on a mangrove located on the island of Mayotte). These crabs inhabit the intertidal area of variable salinity with a bimodal life (aquatic and terrestrial). They are good hyper-hypo-osmoregulators and well adapted to terrestrial life both in terms of osmotic and aerial breathing capacities. Burrow density decreases in flat areas where WW flows and crab community is altered with a marked dominance of Parasesarma guttatum (PG) (a species with no bioturbation activity). This change may induce drastic alterations of the ecosystem functioning. The bioenergetic response of PG is totally different from the other studied species. PG decreases its metabolic rate in WW but the other species have increased metabolic activity. Moreover, after laboratory exposure the 3 species show impairments in their osmoregulatory capacity (Na+/K+-ATPase activity and epithelium gill thickness) and oxidative balance (reactive oxygen species formation in haemolymph and antioxidant enzyme activity in gills) due to WW exposure in laboratory conditions. In situ, encaged crabs showed a similar but reduced pattern. These effects could decrease their fitness and may also explain the observed ecological changes. The biomarkers used in this study may be a useful tool to monitor crab populations. Moreover, our results show that fiddler crabs are the most sensitive to WW followed by other Sesarmidae. PG seems better adapted to avoid WW exposure. Even if no major dysfunction is observed at the ecosystem level yet, WW release should be carefully monitored nevertheless with an emphasis on crab bioturbation activity and their physiological health according to species sensitivity.

Mangrove

Crabe

Biomarqueur

Osmorégulation

Stress oxydatif

Eaux usées

Mangrove

Crab

Biomarker

Osmoregulation

Oxidative stress

Wastewers

Variabilidade genética e morfológica em populações de Trichodactylus fluviatilis Latreille, 1828 (Brachyura, Trichodactylidae) no Brasil / Genetic and morphological variability in populations of Trichodactylus fluviatilis Latreille, 1828 (Brachyura, Trichodactylidae) at Brazil.

Carvalho, Edvanda Andrade Souza de

29 October 2013

O caranguejo de água doce Trichodactylus fluviatilis Latreille, 1828 apresenta uma considerável variabilidade morfológica, aliada a uma ampla distribuição geográfica e ocupação de ambientes costeiros e continentais. Tal variabilidade tem gerado, em alguns casos, dúvidas quanto à delimitação da espécie. O presente trabalho tem como objetivo averiguar se as populações de T. fluviatilis apresentam divergências morfológicas e genéticas compatíveis com o nível intraespecífico avaliando-se a hipótese de validade deste táxon. Para isto, foi realizada a análise da variabilidade genética entre as populações e uma revisão taxonômica. O material analisado foi obtido por meio de coletas, visitas e empréstimos de coleções carcinológicas do Brasil. Foram analisados caracteres descritos na literatura e obtidas sequências parciais dos genes mitocondriais 16S rRNA e citocromo c oxidase subunidade I (COI). Dentre os caracteres morfológicos analisados alguns tiveram muita variação, enquanto outros se mostraram bem informativos para alguns grupos. O resultado da análise molecular mostrou a formação de clados internos com altas divergências genéticas entre eles, tanto para o gene 16S quanto para o COI. Além disso, a espécie T. petropolitanus foi alocada entre os clados reconhecidos morfologicamente como T. fluviatilis. Tais estruturações genéticas, aliada ao polimorfismo morfológico, mostraram claramente que a espécie reconhecida morfologicamente como T. fluviatilis não forma um grupo monofilético, podendo ser considerada um complexo de espécies, que precisa de ajustes taxonômicos consideráveis. / The freshwater crab Trichodactylus fluviatilis Latreille, 1828 presents a considerable morphological variability, as well as a wide geographical distribution and occupancy of coastal and continental environments. Such variability has generated, in some cases, doubts concerning the species delimitation. The present work aims to investigate whether the populations of T. fluviatilis exhibit morphological and genetic divergence compatible with the intraspecific level, assessing the hypothesis of validity of this taxon. Therefore, we have performed the analysis of genetic variability among populations and a taxonomic revision. The material analyzed was obtained from field expeditions, visits and loans from carcinological collections. We analyzed morphological characters described in the literature as well as obtained partial sequences of the 16S rRNA and cytochrome c oxidase subunit I (COI) mitochondrial genes. Some morphological characters analyzed had a wide variation, while others were well informative for some groups. The results of molecular analysis showed the formation of internal clades with high genetic divergence among them, both for 16S and COI. Moreover, the species T. petropolitanus was allocated among clades recognized morphologically as T. fluviatilis. Such genetic structuration and morphological polymorphism clearly indicate that the species morphologically recognized as T. fluviatilis does not form a monophyletic group. Therefore, it must be considered as a species complex, which claims for huge taxonomic adjustments.

caranguejo de água doce

complexo de espécies

divergência genética

freshwater crab

genetic divergence

species complex

variabilidade

variability

Measuring Regulatory and Noncompliance Prevalence Among Maryland Commercial Blue Crab Fishers

Rachor Hornsby, Jacquelyn Lee

01 January 2019

Few empirical studies exist that compare regulation (R) and fishing crime (VL). The lack of information about R and VL effects stakeholder decision-making. Crime weakens conservation efforts and creates false baseline data. This furthers R and the cycle repeats. The purpose of this correlational study was to determine the statistical association between the number and type of annual commercial blue crab R and VL of the same. The Pearson's R correlation was used to analyze the data because it demonstrated the strength of each relationship. This quantitative study was grounded in enforcement theory. The data was public record and consisted of the number of R and VL issued yearly from the General Assembly of a Mid Atlantic's State Department of Natural Resources (MD-DNR). The intent was to correlate multiple decades, but the earliest available VL data began in 2009. The analysis uncovered divergent patterns. The correlation coefficient of 0.79644 confirmed laws from 2009 correlated positively with 2010 violations. Further analysis revealed a negative correlation for 2010 and 2011 that was indicated by a negative correlation coefficient of -0.3588 and -0.166. The mean average of VL was 12.5%. As restrictions keep increasing, the economic impact on local communities is substantial. This research has the potential to effect positive changes in restrictive harvest practices, record keeping of VL by Natural Resources of this Mid Atlantic State, and harvest reporting practices by crabbers. Sharing the findings with industry stakeholders may stimulate dialogue among stakeholders that answers why one type of regulation was violated more than another, encourage compliance by industry users, and improve conservation efforts to proliferate blue crab. This research contributes to future investigation of often-neglected variables that compromise conservation of blue crab.

Blue Crab

Chesapeake Bay

Compliance

Correlation

Maryland

Regulation

Law

Natural Resources Management and Policy

The fiddler crab claw-waving display: an analysis of the structure and function of a movement-based visual signal

How, Martin John, martin.how@anu.edu.au

January 2004

Communication is an essential component of animal social systems and a diverse suite of signals can be found in the natural environment. An area of animal communication that, for technical reasons, we know very little about is the field of ‘movement-based’ or ‘dynamic’ visual signals. In this thesis, I make use of recent advances in measurement and analysis techniques, including digital video and image motion processing tools, to improve our understanding of how movement-based signals are adjusted according to signalling context. I measured and characterised the flamboyant claw-waving displays of male fiddler crabs (Genus Uca) and made use of their transparent lifestyle to record the behavioural contexts in which these signals are produced.¶ The claw-waving displays of seven Australian species of fiddler crab are compared and contrasted to show that these signals are species-specific, but also vary within and between individuals. I show that the species Uca perplexa produces different types of signal in different behavioural contexts, a lateral wave for courtship, and a vertical wave during short-range agonistic and courtship interactions. The structure of the lateral courtship waves of Uca perplexa vary according to the distance of signal receivers, the first time this kind of relationship has been shown in a dynamic visual signal. Finally, I describe and analyse the signalling and orientation behaviour of U. elegans during courtship herding, an unusual mating system that uses the claw-waving display in a novel way.¶ The adjustments made by fiddler crabs to their displays during changes in behavioural contexts suggest that the fine-scale context-sensitivity of animal signals may be far more widespread in communication than hitherto recognised.

fiddler crab

visual ecology

dynamic visual signal

movement-based signal

animal communication

Prevalence, geographic distribution, and biology of a dungeness crab, Cancer magister, microsporidian parasite

Childers, Richard K.

16 May 1994

The microsporidian parasite Nadelspora canceri infects Dungeness crabs, Cancer magister, along the United States Pacific Northwest coast. The prevalence and seasonal variation of N. canceri in Dungeness crabs from Alsea Bay, Oregon, are described based on examination of 2991 crabs collected at monthly intervals from October, 1991 to June, 1993. The average prevalence in monthly samples was 21.0% and ranged from 8.2% to 33.0%. No significant differences in monthly or seasonal parasite prevalence were observed. A total of 3061 Dungeness crabs was examined from an additional seven Pacific Northwest estuaries and Puget Sound to document the geographic distribution of N. canceri and the prevalence of the parasite in these locations. The estuaries sampled and the prevalences observed were: Humboldt Bay, California (14.6%), Coos Bay (10.6%), Yaquina Bay (2.0%), Tillamook Bay (41.2%), and Nehalem Bay, Oregon (14.2%), Willapa Bay (6.9%), and Grays Harbor Washington (0.44%). Dungeness crabs were examined from the Dungeness spit, Kala Point, and Mukilteo areas in Puget Sound and no infected crabs were found. A total of 9317 male Dungeness crabs > 15.9 cm carapace width (CW) captured in the commercial ocean crab fishery was examined for N. canceri and 27 (0.3%) were infected with the parasite. No infections were found in crabs smaller than 3.0 cm CW and the prevalence of infection generally increased with crab size reaching a peak of 22.2% in 14 cm CW crabs. The overall infection prevalence in male crabs (19.2%) was more than twice that of female crabs (8.0%), and of the 821 infected crabs found, 629 (76.6%) were males. The mortality of laboratory-held Dungeness crabs naturally infected with N. canceri was compared to that of uninfected crabs in two separate experiments and in both cases a significantly higher mortality was observed for infected crabs. Nadelspora canceri infections were established in both juvenile and adult Dungeness crabs that were fed parasite spores in laboratory experiments indicating that transmission is direct and intermediate hosts or vectors are not required for transmitting the parasite between hosts. / Graduation date: 1995

Microsporidia -- Pacific Coast (U.S.)

Estuarine Ingress of the Blue Crab Callinectes Sapidus

Ogburn, Matthew Bryan

21 April 2008

This dissertation investigated ingress of postlarval blue crabs Callinectes sapidus to the Newport River estuary, North Carolina, USA. Data from C. similis, Menippe mercenaria, Pachygrapsus transversus, and Arenaeus cribrarius are included in some chapters for comparison. Changes in tolerance to low salinity were examined by: 1) exposing postlarvae (megalopae) collected in coastal and estuarine areas to a range of salinities and 2) determining the cue that stimulates acclimation of coastal megalopae to low salinities, the time to acclimation, and the decrease in salinity necessary for acclimation. Coastal megalopae were less tolerant to salinities of 5 and 10 than megalopae from the estuary. Coastal megalopae became acclimated to low salinities within 12 h when salinity was reduced from 35 to 31. Spatial patterns in abundance during ingress were investigated simultaneously in coastal and estuarine areas. Coastal distributions were determined using nighttime surface plankton tows at slack water after ebb tide and slack water after flood tide on four nights; two each during spring and neap tides. Estuarine distributions were determined using nightly settlement on 'hog's hair' collectors. C. sapidus megalopae were most abundant at the coast east of Beaufort Inlet, but settlement was restricted to western channels of the estuary. Species-specific patterns in abundance were maintained during two spring/neap cycles, possibly due to interactions between larval behavior and physical forcing. Biophysical mechanisms of estuarine ingress were investigated by comparing nightly abundance in coastal and estuarine areas with environmental variables. Comparisons were made using cross-correlation and cross-fourier analyses. High estuarine abundances were associated with wind-driven estuarine inflow and nighttime flood tides. The seasonal pattern of estuarine ingress was strongly associated with the seasonal pattern of alongshore wind stress, suggesting that inter-annual variations in atmospheric forcing may determine the yearly abundance of megalopae arriving in estuarine nursery habitats. The effect of sampling interval on annual megalopal abundance estimates was determined using an 11-year dataset of nightly settlement. Variability in abundance estimates increased with increasing sampling interval. Switching from a one day to two day sampling interval resulted in a 20 % decrease in the likelihood of detecting a significant correlation between annual abundance and CPUE in the North Carolina blue crab pot fishery. / Dissertation

Biology, Ecology

Blue crab (Callinectes sapidus)

recruitment

Callinectes sapidus

settlement

salinity tolerance

Spawning Biology of Female Blue Crabs, Callinectes Sapidus

Darnell, Michael Zachary

January 2009

<p>This dissertation investigated spawning biology of female blue crabs, <italic>Callinectes sapidus</italic>. Females mate following the terminal molt and undertake a spawning migration seaward, producing multiple clutches of larvae. To examine lifetime reproductive potential of female crabs, individual crabs were confined in the field from terminal molt to death. Crabs produced up to 7 clutches over 1-2 spawning seasons and survived up to 394 d after the terminal molt. Time to first clutch and time between clutches were positively correlated with carapace width and best described by degree-days. Size at maturity was negatively correlated with water temperature on the day of the terminal molt. Most measurements of clutch quality and larval fitness were similar for all clutches. The percentage of embryos developing normally decreased 40% from clutch 1 to clutch 4 and clutch volume decreased 50% from clutch 1 to clutch 5. Thus, most of a crab's reproductive output is from the first few clutches. </p><p>Using swimming and abdominal pumping assays, the roles of pheromones in larval release and migratory behavior were investigated. Following delivery of egg extract, bradykinin (a pheromone mimic), and trypsin (an enzyme that generates peptide pheromones), ovigerous crabs responded with increased abdominal pumping, indicating that peptide pheromones stimulate larval release in blue crabs. Ovigerous crabs responded with increased swimming following delivery of egg extract, but not following delivery of a peptide pheromone mimic or an enzyme that produces peptide pheromones. These results suggest that some substance generated from the egg mass stimulates vertical swimming, but that peptides alone do not stimulate swimming. A blend of molecules, possibly including sugars, may be the cue that stimulates swimming behavior. </p><p>Endogenous rhythms in vertical swimming, a mechanism underlying migration in tidal estuaries, were examined in the laboratory under constant conditions in juvenile females, recently-molted females, and females with mature ovaries from Beaufort, NC. Rhythms were variable in each stage, though circatidal rhythms consistent with ebb tide transport were observed in juvenile females and recently-molted females. Crabs with mature ovaries typically swam around the time of high tide. Rhythms were also examined for ovigerous females collected from estuaries with three different tidal regimes: semi-diurnal, diurnal, and non-tidal. Crabs from the tidal estuaries had circatidal or circalunidian swimming rhythms with period lengths corresponding to the tidal period of their home estuary. Swimming occurred primarily on ebb tide. Crabs from the non-tidal estuary had a circadian rhythm of vertical swimming around the time of sunset. Such a rhythm has no obvious migratory significance and migration likely takes place though another mechanism.</p><p>Swimming behavior was also examined in the field in one non-tidal site and three tidal sites. Crabs were tethered in the field and swimming was monitored using archival pressure tags. Crabs tethered in the non-tidal site did not swim, possibly due to the lack of necessary environmental cues. Crabs at the tidal sites swam primarily on ebb tides. Swimming was greatest at the deepest site, which also had the strongest currents. This site is known to be a migratory area for spawning blue crabs. Decreased swimming behavior was observed at the two shallower sites, including one site that is known to be habitat for all stages of blue crabs. These results indicate that swimming behavior is variable among different areas in a single estuary. In areas where swimming is reduced, crabs may continue migrating seaward by walking or may spend additional time in that area to forage. Within each site, peak swimming generally occurred during the time of the most rapid decrease in water level, suggesting that hydrostatic pressure may serve as a cue for swimming. </p><p>Mark-recapture studies were conducted in three rivers (North River, South River, Adams Creek) in eastern North Carolina, and recently-molted female crabs were tagged to ensure a relatively constant time since molting. Most crabs traveled relatively short distances and were recaptured before producing a clutch of eggs. Individuals that moved substantial distances typically moved down-estuary. The Adams Creek canal, connecting Adams Creek with the Newport River estuary, functioned as a migratory corridor, as crabs from both Adams Creek and South River migrated down the canal, presumably using ebb tide transport. Many of the crabs that migrated down the canal into the Newport River were recaptured while ovigerous. Results of this study support the hypothesis that rapid long-distance migratory movements do not begin until production of the first clutch of eggs, though some down-estuary movement takes place by prior to production of the first clutch of eggs.</p><p>Female blue crabs mate following the terminal molt and begin moving seaward soon thereafter by walking and swimming. Once the appropriate salinity (> 22 ppt) is reached, the first clutch of eggs is produced and migration rate rapidly increases. Blue crab spawning biology should be similar throughout the range of the species. After taking latitudinal temperature variation and other local variables into account, results presented here should be applicable not only to blue crabs in North Carolina, but in other areas as well.</p> / Dissertation

Biology, Ecology

Blue crab (Callinectes sapidus)

Callinectes sapidus

Fecundity

Reproductive potential

Spawning biology

Spawning migration

Blue Crab Population Ecology and Use by Foraging Whooping Cranes on the Texas Gulf Coast

Greer, Danielle Marie

2010 December 1900

In 2002, a proposal was submitted to divert water from the confluence of the Guadalupe and San Antonio Rivers to San Antonio, Texas. To investigate the potential impacts of diverting water from the Guadalupe Estuary, my research focused on the foraging ecology of the crane and population ecology of the blue crab, a documented crane food. During winters 2004-2005 and 2005-2006, I examined diets and optimal foraging patterns of territorial adult cranes at Aransas National Wildlife Refuge, Texas. To identify foods of greatest benefit to cranes, I used currencies of optimization to evaluate foraging gain, cost, and efficiency. Foraging benefit differed among foods, depending on the foraging currency used and resource targeted (e.g., energy). Wolfberry fruit, snails, and insects were consumed in the highest quantities, required the least foraging effort, and were generally associated with the highest foraging efficiency. Blue crabs and clams were important sources of protein and biomass. During September 2003-October 2005, I used novel artificial settlement substrates and modified methods of standard deployment to investigate the spatio-temporal patterns of blue crab terminal settlement and recruitment rates. Monitoring rates in shallow bay habitat and ponds of the interior salt-marsh revealed megalopal crabs were developmentally advanced when arriving to study sites and the extent to which young crabs infiltrated the salt-marsh increased with age. Such findings suggested sites represented optimal terminal settlement habitat and consequently critical nursery habitat. Model selection indicated water temperature before and during embryonic development was the best predictor of megalopal settlement, whereas juvenile recruitment was most influenced by recent precipitation. I studied the size-specific abundance patterns of blue crabs in and around mature salt-marsh. Using drop-trapping and throw-trapping methods, I collected monthly samples in several habitats during October 2004-March 2006. Interior-marsh habitats contained fewer but larger crabs than bay habitat. Crabs contributing greatest to biomass were smallest (11-30 mm carapace-width) in bay habitat, larger (31-80 mm) along interior-marsh pond edges, and largest (41-130 mm) in interior-marsh open water. Model selection revealed crab density was most influenced by micro-site characteristics (habitat, water column structure type and structural complexity). Overall, shallow bay provided important nursery habitat for young blue crabs and interior marsh ponds were important for dispersing juvenile and adult crabs.

blue crab

settlement

recruitment

habitat use

whooping crane

optimal foraging

diet