Ecology and Conservation of Sumatran Elephants (Elephas maximus sumatranus) in Sumatra, Indonesia

Sitompul, Arnold Feliciano

01 February 2011

Sumatran elephant (Elephas maximus sumatranus) populations continue to decline due to habitat loss, poaching and conflict with humans. In Sumatra, elephant populations are fragmented into small isolated populations and increasingly cause conflict with humans. Yet, habitat loss due to the rapid land conversion for development is continuing an alarming situation. Developing effective land conservation strategies for elephants is difficult because there is little information available on foraging ecology, habitat use, movements and home range behaviors. I conducted a study on these topics in Seblat, Bengkulu Province, Sumatra during 2007-2008. The five important families of plants in the elephant diet in Sumatra ar: Moraceae, Arecaceae, Fabaceae, Poaceae,and Euphorbiacea. Elephants in Seblat tend to browse more than graze and elephants tend to browse more during the wet season. The nutritional quality (Crude Protein, Calcium, Phosphorus and Gross Energy) of elephant diet in Seblat is suitable to support population reproduction and growth. Home range size of one telemetered 97.4 km2 for the MCP and 95.0 km2 for the 95% fixed kernel. There was no relation between average monthly elephant home range sizes and rainfall, nor any correlation between monthly elephant movement distances and rainfall. Vegetation productivity, as measured by the Enhanced Vegetation Index (EVI), was probably the factor most affecting elephant movements compared to the distances to rivers and ex-logging roads on the SECC. Resource selection analyzes indicate that elephants in Seblat seem to select medium canopy and open canopy areas more than expected. Similarly, habitat ranking using compositional analysis shows that in 2nd order and 3rd order selection, medium canopy and open canopy were the two habitat types with a greater level of used. Habitat use based on diurnal and nocturnal elephant activities indicates that elephants preferred closed canopy habitat compare to the open canopy habitat during the day. The results of this study suggest wide conservation implications for elephants on Sumatra, helping to guide effective land use conservation programs and provide scientific guideline to restore disturbed habitat and select priority areas for Sumatran elephants.

Asian elephant

Dietary ecology

Foraging ecology

Habitat use

Home range

Sumatra

Morphological and Ecological Evolution in Old and New World Flycatchers

Corbin, Clay E.

January 2002

No description available.

Biology, Zoology

Flycatcher

Adaptive Radiation

Evolutionary Ecology

Morphological Disparity

Morphological Evolution

Foraging Ecology

Apple orchards feed and contaminate bees during, but even more so after bloom

Steele, Taylor N.

16 November 2021

Honey bees, Apis mellifera Linn., provide vital economic and ecological services via pollination while concurrently facing multiple interconnected stressors impacting their health. Many crops like apples, peaches, and cherries that add diversity and nutrition to our diet are wholly or partially dependent upon the pollination services of insects. Orchard crops are self-incompatible and commonly regarded as crops reliant on the pollination services of insects, and while previous studies have focused on the impact of bees to orchard crops during bloom, fewer studies have examined the reciprocal relationship of the orchards on honey bees, particularly across the entire foraging season. Here we investigated the foraging dynamics of honey bees in an orchard crop environment in Northern Virginia, United States. We decoded, mapped, and analyzed 3,710 waggle dances, which communicate the location of a valuable resource in the environment, for two full foraging seasons (April-October, 2018-2019), and, concurrent to the dance filming, collected pollen from returning foragers. We found that bees forage locally the majority of the time (< 2 km) throughout the season, with some long-range distances occurring in May after bloom (both 2018 and 2019) and in fall (2019). The shortest communicated median distances (0.50 km and 0.53 km), indicating abundant food availability, occurred during September in both years, paralleling the bloom of an important late season resource, goldenrod (Solidago). We determined, through plotting and analyzing the communicated forage locations and from the collected pollen from returning foragers, that honey bees forage more within apple orchards after the bloom (29.4% and 28.5% foraging) compared to during bloom (18.6% and 21.4% foraging) on the understory of clover and plantain. This post bloom foraging also exposes honey bees to the highest concentration of pesticides across the entire foraging season (2322.89 ppb pesticides versus 181.8 during bloom, 569.84 in late summer, and 246.24 in fall). Therefore, post bloom apple orchards supply an abundance of forage, but also the highest risk of pesticide exposure, which may have important implications for management decisions of bees in orchards. / Master of Science in Life Sciences / Honey bee hives have been declining significantly in the United States, driven by a multitude of issues and stressors including pesticide exposure, disease, pests such as varroa mites, and poor nutrition caused by natural land being converted into development or agriculture. Agricultural landscapes, in particular, are often monocultures are saturated with pesticides creating a potentially hazardous environment, yet reliant on bees to provide pollination for crops. Because of this interconnected relationship between bees and flowers and the effects of stressors agricultural systems cause have with pollinators, it is necessary to understand how honey bees forage in these environments and what potential health risks they face. We investigated honey bees foraging dynamics in an apple orchard in Northern Virginia, United States by observing honey bee waggle dance behavior, where bees literally waggle back and forth for a certain time and at a certain angle telling their nestmates where a resource is, and collecting pollen from returning forager bees to better understand when, where, and upon what honey bees forage throughout the foraging season, which is when flowers are available and the weather warm enough (April – October). We found that bees mostly forage locally near the hive throughout the season, indicating that sufficient amount of food was available even after short bloom time of the apple (April to mid-May). We determined, through plotting and analyzing the waggle dance locations, that honey bees forage more within apple orchards after the bloom on mostly clover and plantain. This abundance of post bloom foraging also exposes honey bees to the highest amounts of pesticides across the entire foraging season. Post bloom apple orchards supply an abundance of forage, but also the highest risk of pesticide exposure to honey bees.

waggle dance

honey bee

Apis mellifera

foraging ecology

apple

orchard

pollination

pollen

A Bear's Eye View: Insight on American Black Bear (Ursus americanus) Hibernation and Foraging Ecology in Virginia's Central Appalachian Mountains

Holcombe, Brogan Elizabeth

07 June 2024

Following mass agricultural expansion and deforestation in the late 1800s and early 1900s, American black bear populations (Ursus americanus, hereafter black bear) were low across most of Virginia. The Department of Wildlife Resources (VADWR) and the United States Forest Service worked to rebuild wildlife habitat in the state, leading to recovery of bears. While some aspects of black bear hibernation and foraging ecology have been studied, there remain knowledge gaps on key aspects of black bear biology. Hibernation behavior, for example, is understudied with most knowledge stemming from post-hibernation emergence studies. We used a unique dataset with continuous monitoring of mother bears and their cubs from Virginia Tech's Black Bear Research Center in 2015-2016, to better understand hibernation ecology, mother-cub dynamics, and biological-foster cub dynamics. We found that increased black bear activity levels were driven by both higher temperature and photoperiod, but the onset of hibernation was primarily driven by only temperature. Temperature is projected to rise in VA and rising temperatures regionally could be responsible for increased active behaviors in bears, which could lead to increased human-black bear interactions on the landscape, especially during hibernation onset. We also found that mother bears spend similar amounts of time with biological and foster cubs. Biological cubs did not show more dominance behaviors toward fosters than biological siblings, which we also observed with foster, where they did not continuously display these behaviors towards biological cubs. These results are promising for orphan cub fostering programs in VA and other states and indicate that foster cub litter integration can be successful. Foraging ecology also is challenging to study in black bears because direct observation is generally not possible due to their cryptic nature, closed habitat, or potential danger in observing. We used a dataset from camera collars deployed on 15 bears (8 males, 7 females) in Bath County Virginia in 2018 and 2019 to better understand diet seasonality and to determine habitat and environmental drivers of black bear foraging patterns, particularly on white-tailed deer (Odocoileus virginianus) and invasive plant species. We identified 178 unique diet items to family, genus, or species in videos, much higher numbers than previously reported in the literature, and we found high diet overlap between sexes. Diet composition was primarily influenced by season with higher levels of consumption of herbaceous soft mast in spring, fruit and seed soft mast in summer, and hard mast in fall. Females exhibited more hunting events on deer fawns in spring than males, but males and females consumed similar numbers (28 vs. 24, respectively) via hunting and scavenging combined. Males consumed anthropogenic foods more often than females, particularly when closer to human settlements and males more commonly consumed invasive plant species in spring while females more often consumed insect in spring invasive species in summer. Our results highlight strong seasonally- and subtle sex-mediated differences in black bear diets. We provide information on drivers of diet choices by bears, as well as identify where foraging hotspots on species of interest occur, providing information useful to VADWR in managing increased human-wildlife interactions (and mitigating potential for negative interactions), predator-prey relations, and invasive species spread across the landscape. / Master of Science / American black bears were almost eliminated from Virginia following mass agricultural expansion and deforestation in the late 1800s and early 1900s. The Department of Wildlife Resources (VADWR) and the United States Forest Service worked to rebuild wildlife habitat in the state, leading to recent recovery of bears in VA. However, there are still gaps in our knowledge of black bear ecology and gaining new knowledge will aid in better management of black bears across the state. We used two unique video data sets to study hibernation and foraging (or feeding) ecology to fill important knowledge gaps. To study hibernation behavior, we used a video data set of continuously monitored, temporarily captive mother bears and their cubs held at Virginia Tech's Black Bear Research Center in 2015-2016. We found that black bear activity was driven by both daily temperature and photoperiod (length of daylight), but onset of hibernation was mostly driven by temperature only. With Virginia projected to experience rising, and more variable, temperatures due to climate change, this may mean that bears will stay longer on the landscape in fall, even past the point where vegetation (food) has gone dormant, potentially leading to increased human-black bear interactions as bears seek human foods. We also examined mother-cub interactions and found mother bears did not spend more time with their biological cubs than their fosters (fosters are orphaned black bear cubs arising due to death of mothers) and biological cubs did not show more dominance behaviors (i.e., biting, chasing, or pinning to ground) toward fosters than biological siblings. These are positive results for VADWR's surrogate sow program across the state. Foraging ecology is difficult to study in black bears because direct observation is generally not possible due to their secretive nature, dense habitat, or potential danger in observing. Therefore, traditionally, many studies collect and examine scat (fecal) samples or stomach contents from harvested bears, but these methods may not find diet items that are quickly digested. We used a unique dataset from video camera collars placed on 15 bears in Bath County Virginia in 2018 and 2019. We found some important differences from the literature - our spring diets had higher proportions of deer and soft vegetation (leaves), however the unknown diet items in the literature were high, leading to incomplete or incorrect diet profiles. Diet composition was primarily influenced by season with higher levels of consumption of leafy soft mast in spring, fruit and seed soft mast in summer, and hard mast in fall. Males and females had high dietary overlap and we found that females had more hunting events on deer fawns in spring than males, but overall males and females consumed similar numbers (28 vs. 24, respectively) via hunting and scavenging combined. Males more often consumed human foods than females, while females more often consumed insect species than males. Also, males more commonly consumed invasive species in spring, while females did so in summer. Our results highlight differences in diet content caused by season and subtle differences in diets between sexes. We provide information on drivers of feeding choices bears make and we identify foraging hotspots for deer and invasive species, information useful to VADWR in managing potential human-wildlife interactions, predator-prey relations, and invasive species spread across the landscape.

American black bear

foraging ecology

hibernation ecology

diet composition

Ursus americanus

Resource variation and the evolution of phenotypic plasticity in fishes

Ruehl, Clifton Benjamin

30 September 2004

Resource variation and species interactions require organisms to respond behaviorally, physiologically, and morphologically within and among generations to compensate for spatial and temporal environmental variation. One successful evolutionary strategy to mitigate environmental variation is phenotypic plasticity: the production of alternative phenotypes in response to environmental variation. Phenotypic plasticity yields multiple characters that may enable organisms to better optimize phenotypic responses across environmental gradients. In this thesis, I trace the development of thought on phenotypic plasticity and present two empirical studies that implicate phenotypic plasticity in producing morphological variation in response to resource variation. The first empirical study addresses trophic plasticity, population divergence, and the effect of fine-scale environmental variation in western mosquitofish (Gambusia affinis). Offspring from two populations were fed either attached or unattached food items offered in three orientations: (1) water surface, (2) mid-water, (3) benthic, and (4) a daily rotation of the former three (fine-grained variation). Attached food induced wide heads, blunt snouts and rounded pectoral fins relative to morphology in the unattached treatment. Mid-water feeding induced elongated heads and deeper mid-bodies relative to benthic and surface feeding induced morphologies. The rotating treatment produced intermediate morphologies. Population divergence seemed related to both trophic and predation ecology. Ecomorphological consequences of induced morphologies and the need for inclusion of greater ecological complexity in studies of plasticity are discussed. The second study examines induced morphological plasticity and performance in red drum (Sciaenops ocellatus). I fed hatchery fish either hard or soft food for two months. Performance trials were designed to measure their ability to manipulate and consume hard food items. External morphology and the mass of pharyngeal crushing muscles were assessed for variation among treatments. A hard food diet induced deeper bodies and larger heads, more massive pharyngeal muscles, and initially more efficient consumption of hard food than fish receiving soft food. The observed morphological variation is in accordance with variation among species. Determining evolutionary mechanisms operating within red drum populations should eventually aid in developing and optimizing conservation efforts and ease the transition from hatchery facilities to estuaries.

resource polymorphism

trophic plasticity

ecomorphology

foraging ecology

geometric morphometrics

population differentiation

induced morphology

fine grained resource variation

Resource variation and the evolution of phenotypic plasticity in fishes

Ruehl, Clifton Benjamin

30 September 2004

Resource variation and species interactions require organisms to respond behaviorally, physiologically, and morphologically within and among generations to compensate for spatial and temporal environmental variation. One successful evolutionary strategy to mitigate environmental variation is phenotypic plasticity: the production of alternative phenotypes in response to environmental variation. Phenotypic plasticity yields multiple characters that may enable organisms to better optimize phenotypic responses across environmental gradients. In this thesis, I trace the development of thought on phenotypic plasticity and present two empirical studies that implicate phenotypic plasticity in producing morphological variation in response to resource variation. The first empirical study addresses trophic plasticity, population divergence, and the effect of fine-scale environmental variation in western mosquitofish (Gambusia affinis). Offspring from two populations were fed either attached or unattached food items offered in three orientations: (1) water surface, (2) mid-water, (3) benthic, and (4) a daily rotation of the former three (fine-grained variation). Attached food induced wide heads, blunt snouts and rounded pectoral fins relative to morphology in the unattached treatment. Mid-water feeding induced elongated heads and deeper mid-bodies relative to benthic and surface feeding induced morphologies. The rotating treatment produced intermediate morphologies. Population divergence seemed related to both trophic and predation ecology. Ecomorphological consequences of induced morphologies and the need for inclusion of greater ecological complexity in studies of plasticity are discussed. The second study examines induced morphological plasticity and performance in red drum (Sciaenops ocellatus). I fed hatchery fish either hard or soft food for two months. Performance trials were designed to measure their ability to manipulate and consume hard food items. External morphology and the mass of pharyngeal crushing muscles were assessed for variation among treatments. A hard food diet induced deeper bodies and larger heads, more massive pharyngeal muscles, and initially more efficient consumption of hard food than fish receiving soft food. The observed morphological variation is in accordance with variation among species. Determining evolutionary mechanisms operating within red drum populations should eventually aid in developing and optimizing conservation efforts and ease the transition from hatchery facilities to estuaries.

resource polymorphism

trophic plasticity

ecomorphology

foraging ecology

geometric morphometrics

population differentiation

induced morphology

fine grained resource variation

Foraging ecology of brown bears in the Mackenzie Delta region, NWT

Barker, Oliver

Unknown Date

No description available.

foraging ecology

resource selection

Ursus arctos

brown bear

grizzly bear

Urocitellus parryii

Arctic ground squirrel

Coregonus nasus

broad whitefish

Patterns and processes of marine habitat selection: foraging ecology, competition and coexistence among coastal seabirds

Ronconi, Robert Alfredo

13 May 2008

Changes in the marine ecosystem can affect the distribution, survival, and reproductive success of seabirds. Therefore, a better understanding of factors influencing the marine distribution and abundance of seabirds can provide insight into ecological hypotheses and have important conservation implications. Yet at-sea habitat selection by seabirds has received far less attention than have investigations of their breeding biology. I studied the patterns and processes of marine habitat selection by seabirds in nearshore waters of Pacific Rim National Park Reserve, Vancouver Island, British Columbia. The study focused on comparative analyses among five sympatric species: marbled murrelet (Brachyramphus marmoratus), common murre (Uria aalge), rhinoceros auklet (Cerorhinca monocerata), pigeon guillemot (Cepphus columba) and pelagic cormorant (Phalacrocorax pelagicus). I used a multi-scaled and multi-disciplined approach combining shore-based telescope observations, vessel-based surveys, and developed new techniques for mapping nearshore seabird distributions. Patterns of habitat selection were examined through vessel-based surveys and species-habitat modeling. Vessel-based transects are fundamental to studies of seabird ecology, yet standardized protocols often fail to account for detectability biases. Distance-sampling methods were used to quantify seabird detectability along transects and showed extensive variability (20-80% of birds detected) depending on species, year, and observer. Corrected estimates of bird densities were used in habitat selection modeling, which demonstrated inter-specific and inter-annual differences in species-habitat associations. Most species showed distinct partitioning in habitats, particularly with respect to substrate and along gradients of depth and sea-surface temperature/salinity. Thus, environmental variability is a key factor structuring habitat use and coexistence in this community of piscivorous seabirds. Processes of habitat selection were studied through observations of foraging behaviour, estimates of prey availability, and spatial-statistical analysis of seabird distributions. Marbled murrelets increased foraging effort in years and seasons with scarce prey and poor oceanographic conditions and decreased foraging effort at sites with high prey availability. Despite their flexible activity budgets, increased foraging effort was inadequate to buffer reproductive success in a poor prey year, suggesting that prey availability is a limiting factor in habitat use and population growth for murrelets. Theodolite-based mapping studies examined the fine-scale distribution patterns of murrelets and murres. Nearest neighbour spatial statistics tested for competition over foraging space and showed avoidance of murres by murrelets. The results of these studies have implications for the management and conservation of the imperiled marbled murrelet in British Columbia and elsewhere in their range. I demonstrate a clear link between prey availability and consequences for reproductive success. Habitat selection models provide a step towards identifying critical marine habitats which must be protected under the Species at Risk Act. Murrelets show high forage site fidelity and associations with spatially fixed habitat components (beaches), suggesting that marine protected areas may have an important role to play in the conservation, management and recovery of murrelet populations.

seabirds

murrelets

conservation biology

habitat selection

competition

niche

foraging ecology

Foraging ecology of brown bears in the Mackenzie Delta region, NWT

Barker, Oliver

06 1900

The Mackenzie Delta region, NWT, has a short growing season and highly seasonal climate, and brown bears (Ursus arctos) there face many challenges obtaining their nutritional requirements. Consumption of meat by brown bears is linked to increases in population density, fecundity, growth and body size. I examined the use of Arctic ground squirrels (Urocitellus parryii), and broad whitefish (Coregonus nasus) as meat sources by Mackenzie Delta brown bears. As a preliminary step, I built an Arctic ground squirrel habitat model, using field-surveyed ground squirrel burrow locations. Using this model, I examined bears selection for Arctic ground squirrel habitat as a population, by sex and as individuals, and linked this to results of stable isotope analysis and site investigations. Bears showed little evidence of Arctic ground squirrel use at the population and sex level, but some individual bears appeared to prey heavily on ground squirrels, particularly during hyperphagia. I also described observations of a brown bear using broad whitefish in autumn, and used telemetry locations to show that other bears may also feed heavily on broad whitefish during hyperphagia. My research provides prey-specific evidence for intrapopulation niche variation among Mackenzie Delta brown bears. / Ecology

foraging ecology

resource selection

Ursus arctos

brown bear

grizzly bear

Urocitellus parryii

Arctic ground squirrel

Coregonus nasus

broad whitefish

Ecologia alimentar de psitacídeos na diagonal seca brasileira e implicações no processo de soltura

Rodrigues, Giovanna Soares Romeiro

16 February 2017

Submitted by FABIANA DA SILVA FRANÇA (fabiana21franca@gmail.com) on 2018-02-22T13:46:56Z No. of bitstreams: 1 Arquivo Total.pdf: 3728715 bytes, checksum: e1d7a2bbae94938f6e4f35edc91c9a5d (MD5) / Made available in DSpace on 2018-02-22T13:46:56Z (GMT). No. of bitstreams: 1 Arquivo Total.pdf: 3728715 bytes, checksum: e1d7a2bbae94938f6e4f35edc91c9a5d (MD5) Previous issue date: 2017-02-16 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The open biomes of Brazil, including Cerrado and Caatinga, are characterized by the intense seasonality and low pluviometric indices. The survival in such conditions depends upon ecological adaptations. Even so, we lack of information on the required resources for the maintenance of the species in that ambient. Psittaciformes is one of the most threatened groups among birds, either by habitat loss, or harvesting for wildlife traffic. Additionally, there is an ongoing debate on the proper destination for the animals seized from traffic, and we currently lack of data on the success of reinserting these birds back in the wild, or on the associated impacts into the wild. For the purpose of evaluating comparatively, in terms of feeding, the adaptive strategies of the Psittacidae in Brazilian open diagonal and evaluating reinserting birds seized from traffic, we colected and compiled data of six natural populations of one Cerrado’s Psittacidae (Brotogeris chiriri) and three natural populations and one group released on the Caatinga (Eupsittula cactorum). The natural populations of both species are frugivorous and seed predators. Both show variations on the diet composition with up to 50% of exclusive species between dry and rainy seasons, including exotic and cultivated on theirs diet and they do not realize migratory movements. The Caatinga species, Eupsittula cactorum, explores a higher number of species, has a higher number of plant-animal interactions and feeds on a wider strata when compared to the on of Cerrado (Brotogeris chiriri). The diet of both is characterized by a high spatial turnover, which seems to reflect the local composition of available resources. In terms of niche, both show similar behavior, narrowing the diet dimension but feeding on a wider range of strata during the dry season. Our data indicates that although presenting a narrower niche, E. cactorum explores qualitatively and quantitatively a larger pool of resources (when compared to Brotogeris chiriri), thus presenting more behavioral versatility. Regarding the released population of E. cactorum, most of the individuals survived and adapted to the environment, dispersing itself and congregating with the natural population. The released population presented lower diet richness, with the predominance of exotic and/or cultivated species, and not feeding on zoological resources. The composition differences implies on a low diet similarity with a of the natural populations and to different plant-animal interactions, as released animals shows a preference for the predation of non-reproductive parts. In terms of niche, the released population of E. cactorum presents higher homogeneity on the diet, but responds to the seasonal varieties in a similar way to the natural populations, by narrowing the niche on the diet dimension but feeding on a wide strata during dry season. Based on these results, it seems to train individuals to use plants that compose the local flora, as these could improve success under a highly seasonality such as found at the Caatinga. / Os biomas abertos brasileiros, que incluem o Cerrado e a Caatinga, são caracterizados pela marcante sazonalidade e baixos índices pluviométricos. A sobrevivência em tais condições depende de adaptações ecológicas, entretanto, são escassas informações sobre os recursos necessários para a manutenção das espécies de aves como psitacídeos, por exemplo. Os Psittaciformes são um dos grupos mais ameaçados dentre as aves, pela perda de habitat, pela predação ou competição com espécies introduzidas, caça e tráfico de animais silvestres. Além disso, falta consenso quanto à destinação dos animais apreendidos do tráfico pelos órgãos competentes, bem como, faltam dados sobre o sucesso de seu estabelecimento e/ou impactos associados, quando a opção mais viável é a soltura. Com a finalidade de avaliar comparativamente, em termos de alimentação, as estratégias adaptativas de psitacídeos na diagonal seca brasileira e se uma população originária do tráfico tende a se comportar de modo similar às populações naturais coletamos e compilamos dados de três populações naturais e uma solta de um psitacídeo da Caatinga (Eupsittula cactorum) e de seis populações naturais de uma espécie do Cerrado (Brotogeris chiriri). As populações naturais de ambas as espécies são predominantemente frugívoras e interagem predominantemente como predadores de sementes. Ambos apresentam variações na composição alimentar com até 50% de espécies exclusivas entre estações seca e chuvosa, incluem espécies exóticas e cultivadas em sua dieta e não realizam movimentos migratórios. A espécie da Caatinga, Eupsittula cactorum, explora uma riqueza maior de espécies e itens vegetais e animais, com mais interações planta-animal e estratos alimentares que a do Cerrado. A dieta de ambas é caracterizada por elevado turnover, parecendo refletir a composição da vegetação local. Em termos de nicho, ambas apresentam comportamento semelhante, com estreitamento na dimensão da dieta e ampliação na dimensão de estratos alimentares na estação seca. Nossos dados indicam que apesar de apresentar um nicho mais estreito a espécie E. cactorum explora qualitativa e quantitativamente mais recursos que Brotogeris chiriri, apresentando maior versatilidade comportamental. Quanto à população solta de E. cactorum, a maioria dos indivíduos sobrevive e se adapta, dispersando-se e apresentando diferenças na exploração de recursos em relação às populações naturais, com uma dieta menos rica, com predominância de espécies vegetais exóticas e/ou cultivadas e sem suplementação com itens de origem animal. As diferenças na composição implicam em baixíssima similaridade com a dieta das populações naturais e em diferentes interações planta-animal, com predominância de predação de partes não reprodutivas. Em termos de nicho, esta última apresenta maior homogeneidade na dieta, mas responde às variações sazonais de forma semelhante às populações naturais, com estreitamento do nicho na dimensão da dieta e ampliação na dimensão dos estratos alimentares durante a estação seca. Com base nestes resultados, sugerimos uma futura triagem rigorosa dos indivíduos a serem soltos e a aplicação de treinamento alimentar prévio utilizando plantas que compõem a flora local, pois podem aumentar o sucesso desses indivíduos em ambientes com variações sazonais drásticas como a Caatinga.

Ecologia alimentar

Psittacidae

Diagonal seca brasileira

Solturas

Conservação

Foraging ecology

Psittacidae

Dry brazilian diagonal

Release

Conservation

CIENCIAS BIOLOGICAS::ZOOLOGIA