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51	Resposta comportamental de Scaptotrigona depilis (Apidae: Meliponini) aos estoques de pólen / Behavioural response of Scaptotrigona depilis (Apidae: Meliponini) to pollen stores Roberto Gaioski Junior 30 October 2017 (has links) Para as abelhas com organização altamente eussocial, como são as abelhas sem ferrão (Meliponini), o pólen é a principal fonte de proteína que influencia diretamente na regulação social de suas colônias, tanto nos imaturos quanto nos indivíduos em fase adulta. O sucesso das operárias em localizar e coletar esse recurso, assim como a quantidade estocada no interior do ninho, garante um abastecimento nutricional permanente, assegurando a manutenção e sobrevivência da colônia durante longos períodos, incluindo os de escassez de alimento no ambiente. Dessa forma, o objetivo desse trabalho foi avaliar o efeito da quantidade de pólen estocado nos ninhos de Scaptotrigona depilis (Moure, 1942) sobre o número de forrageiras para a coleta desse recurso, a quantidade de pólen coletado pelas forrageiras e a taxa de produção de cria. Esses parâmetros foram avaliados em ninhos com e sem estoques de pólen durante 30 dias consecutivos em dois períodos, de março a abril e de setembro a outubro de 2016. Quando os ninhos sofreram reduções drásticas de suas reservas de pólen, as operárias de S. depilis ajustaram suas atividades e responderam comportamentalmente, de forma que houve: (a) alocação de maior número de forrageiras para coleta de pólen; (b) alocação de forrageiras mais pesadas para coleta de pólen; (c) transporte de cargas polínicas mais pesadas pelas forrageiras; (d) maior produção de céulas de cria. Em suma, nossos resultados mostram a importância de estudos sobre biologia básica, com manipulações experimentais, que não só têm potencial para responder questões ecológicas e/ou evolutivas, como também as aplicadas, provendo subsídios para o uso de abelhas sem ferrão em programas de polinização dirigida, que podem ser aliados a ações voltadas para conservação. / For highly eusocial bees, such as stingless bees (Meliponini), pollen is the main source of protein that directly influences the social regulation of their colonies, on both immature and adult stages. The workers\' success in locating and collecting pollen, as well as the amount of pollen stored within the nest, guarantees a permanent nutritional supply, ensuring the colony maintenance and survival for long periods, including those of food shortage in the environment. The aim of this study was to evaluate the effect of the amount of pollen stored within the nests of Scaptotrigona depilis (Moure, 1942) on the number of pollen forages, the pollen loads collected by forages and the rate of brood cell production. These parameters were evaluated in nests with and without pollen stores during 30 consecutive days in two periods, from March to April and from September to October 2016. When the nests suffered drastic reduction of their pollen reserves, the S. depilis workers adjusted their tasks and responded behaviourally, because there was: (a) additional allocation of pollen foragers; (b) allocation of heavier forages for pollen collection; (c) transport of heavier pollen loads by foragers; (d) higher brood cell production. In sum, our results highlight the importance of studies on basic biology, with experimental manipulations, that have widespread potential to help us to answer ecological and/or evolutionary questions, but also the applied questions, providing useful guidelines for the use of stingless bees as crop pollinators, which can be allied to conservation efforts. Abelhas sem ferrão Agricultura Forrageamento Produção de células de cria Agriculture Brood cells production Foraging Stingless bees
52	Cold-induced vasodilation in the brood patch of Zebra finches (Taeniopygia guttata) Klubb, Sofia January 2010 (has links) The development of the avian embryo is dependent of heat provisioning from the parents. To increase the heat transfer to a cooled egg the Zebra finch females develop a brood patch. Mild cooling generally constricts the blood vessels but the Arterio-venous anastomoses (AVA) in the brood patch in birds dilate. This is called cold-induced vasodilation CIVD. The Zebra finches were anesthetized with isoflurane and the brood patch was stimulated with a cooling probe set at 20-21 °C. Differences in the vascular changes to cooling in broody and non- broody birds were studied by comparing males and broody females. The brood patch skin was cooled, but no cold-induced vasodilation (CIVD) was documented for the males or the broody females. Isoflurane anesthesia depresses the sympathetic nervous system activity and the results support that the mechanism for CIVD in the brood patch of Zebra finches depends on a neural pathway, but does not exclude a local non-neural mechanism. Brood patch broody cold-induced vasodilation mechanism non-broody Zebra finch Physiology Fysiologi Biological Sciences Biologiska vetenskaper
53	Understanding the Interaction Between Habitat Use of Feral Horses and the Abundance of Greater Sage-Grouse in the Great Basin Carver, Mikiah R. 21 July 2021 (has links) Environmental impacts of feral horses (Equus caballus) are a subject of conservation concern and controversial national policy. In North America, feral horses are considered an invasive species where they impact rangelands of the arid and semi-arid western United States. The greater sage-grouse (Centrocercus urophasianus) is a native sagebrush obligate bird species that relies on sagebrush habitats to sustain viable population levels. Recent literature suggests that feral horse presence can have a notable effect on the fitness of native and sagebrush obligate species throughout the arid and semi-arid western United States. The purpose of this thesis was to assess the potential impact of feral horses on population patterns and on late-brood rearing habitat of greater sage-grouse throughout the Great Basin. This was accomplished by pairing known sage-grouse use sites (leks and late brood-rearing habitat) to random sites for comparison. Within each pair, one site was located within Herd Management Area (HMA) boundaries (with assumed horse presence) while the other was located outside (with assumed horse absence). We then assessed lek attendance throughout the state of Nevada and compared attendance rates to known horse population estimates. Furthermore, paired late brood-rearing habitat sites were compared to one another to assess the effect of horse and cattle presence on habitat quality and characteristics. We determined that mean sage-grouse population size at leks is higher (9.14 Â± 1.04 males) within HMA boundaries compared to areas outside of HMA boundaries (6.55 Â± 0.74 males). Considering late brood-rearing habitat, we determined that statistical differences have occurred between horse and non-horse use sites in the following comparisons: annual grass frequency, percent annual grass cover, dung frequency, total plant height, vegetative height, and horse and cattle dung density. We suggest that feral horse presence can impact sage-grouse habitat, however, a more clear understanding of horse effects on rangeland wildlife habitat is needed to assess actual impacts on wildlife populations in consideration of multiple use management decisions. Artemisia Centrocercus urophasianus disturbance Equus caballus feral horses grazing late brood-rearing lek trampling Life Sciences
54	The Influence of Wind Energy Development on Columbian Sharp-tailed Grouse (Tympanuchus phasianellus columbianus) Breeding Season Ecology in Eastern Idaho Proett, Matthew C. 01 May 2017 (has links) The Columbian sharp-tailed grouse (Tympanuchus phasianellus columbianus; CSTG) has experienced range-wide population declines, primarily as a result of habitat loss or degradation, and currently occupies <10% of its historic range. Expansion of wind energy developments across the remaining occupied CSTG range has been identified as a potential threat to the species. To assess the potential influence of wind energy development on CSTG breeding season ecology, I captured and radio-marked 135 female CSTG during 2014-2015 at leks located between 0.1-13.8 km from wind turbines in restored grassland habitats. I subsequently monitored 147 nests and 68 broods and used an information-theoretic model selection approach to assess the potential influence of wind energy distance and density variables, multi-scale habitat features, temporal factors, and precipitation on CSTG nest site selection, daily nest survival, brood success, and chick survival. The best nest site selection model suggested a positive functional response to the amount of restored grassland habitat with >30% forb cover at the nesting core use (60 ha) scale. Daily nest survival was positively associated with visual obstruction readings at the nest and the amount of restored grassland habitat containing >30% forb cover at the core use (60 ha) scale. Nest site selection and daily nest survival were not influenced by proximity to turbines or turbine density at the core use or breeding season home range (1385 ha) scales. Early (14-day) brood success was positively influenced by post-hatch precipitation and late (42-day) brood success was positively influenced by earlier hatch dates. Chick survival to 42 days post hatch was positively influenced by post-hatch precipitation and earlier hatch dates and negatively influenced by increasing densities of wind turbines at the breeding season home range scale. The probability of an individual chick surviving to 42 days decreased by 50% when there were ≥10 turbines within 2.1 km of the nest. In restored grassland habitats, such as Conservation Reserve Program fields, I recommend plantings and management practices that will result in diverse, bunchgrass-dominated nesting habitat with residual grass cover and >30% forb canopy cover during the nesting season. My results suggest that wind turbines occurring within 2.1 km of nesting habitats (i.e., 4.8 km of occupied leks) may negatively affect CSTG recruitment. sharp-tailed grouse Tympanuchus phasianellus columbianus wind energy nesting brood Biology
55	Greater Sage-Grouse Ecology, Chick Survival, and Population Dynamics, Parker Mountain, Utah Dahlgren, David K. 01 May 2009 (has links) We estimated survival of ~ 1-day-old chicks to 42 days based on radio-marked individuals for the Parker Mountain greater sage-grouse (Centrocercus urophasianus) population. Chick survival was relatively high (low estimate of 0.41 and high estimate of 0.50) compared to other studies. Brood-mixing occurred for 21 % of radio-marked chicks, and within 43 % of radio-marked broods. Our study showed that brood-mixing may be an important ecological strategy for sage-grouse, because chicks that brood-mixed experienced higher survival. Additionally, modeling of chick survival suggested that arthropod abundance is important during the early brood-rearing period (1 - 21 days). We also used life-cycle modeling (perturbation analyses and Life Table Response Experiments) to assess the importance of various vital rates within this population. We determined that adult hen survival and production (chick and fledgling survival) had the most influence on growth rate. Moreover, we assessed various methods (walking, spotlight, and pointing dog) for counting sage-grouse broods. Spotlight and pointing dog methods were more effective than walking flush counts, and the latter may underestimate chick survival. Brood Surveys Chick Survival Greater Sage-grouse Population Dynamics Animal Sciences
56	Seasonal mass variation as a life history trait in West African savannah birds Cox, Daniel T. C. January 2013 (has links) Seasonality influences life history through its effect on the availability of essential resources, with birds timing breeding to occur during peak food availability. Due to density-dependence, investment in breeding is determined largely by the seasonality of food availability, with an increased investment being traded-off against adult survival. A bird's mass acts as an index of a species' foraging environment, because a bird bases its foraging decisions on a trade-off between the risk of predation and the risk of starvation. Under constant predation risk a bird increases its mass as insurance against increased foraging unpredictability. In tropical savannahs day length and temperature remains relatively constant, and there is not a season of increased density-dependent mortality which acts across all species. Thus species have evolved a broad range of life history traits under the same environmental conditions, although how a species experiences seasonality depends largely on its foraging niche. This thesis shows that most savannah species varied their mass across the year, having a reduced mass in the non-breeding season which suggests that foraging remained predictable. Independent of gonad or egg growth they then increased their mass as they started to breed, with the timing of breeding coinciding with peak food availability. Across species in the same foraging niche mass acts as an index of breeding investment, with females increasing their mass more than males. While across species in different foraging niches an increased mass response was associated with higher adult survival, probably because breeding strategy and subsequently adult survival are governed by food limitation. This thesis shows that birds adaptively manage their mass during breeding and that mass is not a result of energetic stress, thus under constant predation risk a bird's mass is a result of foraging predictability as a function of competition for available food and investment in breeding. 598
57	The Social Organization of Wild Turkeys on the Welder Wildlife Refuge, Texas Watts, Charles Robert 01 May 1969 (has links) This study is of the social organization of the wild turkey (Meleagris gallopavo intermedia Sennett) on the Welder Wildlife Refuge in southern Texas. The earliest turkey nests hatched in April, with the peak of hatching a month or more later. These poults may remain with their mother until winter. This brood flock, however, often combined with other brood flocks to form composite brood flocks when the poults were a few weeks old. Hens not successful in rearing young combined into broodless flocks. The juvenile males left the brood flocks in late fall or winter. They remained a distinct unit, the sibling group. These sibling groups attempted to join adult male flocks which were composed of older sibling groups. Most often the juvenile sibling groups were forced to join others their own age to form juvenile male winter flocks. Female flocks, after losing their juvenile males, combined with other female flocks to form large bands of up to 200 females. In spring the adult male flocks split into sibling groups for breeding. The sibling groups joined the female bands on display grounds. Only the dominant male of the dominant sibling group mated while hens were on the display ground. Later in the breeding season the female bands split into their flocks and returned to former nesting areas. Resident flocks continued to use the display ground, but later broke up into nesting groups of 2-5 females localized near their nests. The male sibling groups accompanied the females from the display ground, but did not become territorial. Incubation or nest loss broke down the female nesting group. This in turn led to formation of brood flocks or broodless flocks of hens. wild turkey social organization brood flocks flocks social behavior Animal Sciences Biology Life Sciences Ornithology Poultry or Avian Science
58	Colony Founding And The Evolution Of Eusociality In Primitively Eusocial Wasp, Ropalidia Marginata Shakarad, Mallikarjaun 08 1900 (has links) Many animals live in societies of varying degrees of organization. Some individuals in these societies seem to sacrifice their own fitness to increase the fitness of some others. Understanding the forces that mould the evolution of such altruistic behaviour has become a dominant theme in modern evolutionary biology. Primitively eusocial polistine wasps provide excellent model systems to study the evolution of altruism as they show high degrees of plasticity in their behaviour. Different individuals in the same population pursue different social strategies such as nesting alpne or nesting in groups. When wasps nest in groups, usually only one individual becomes the egg layer, while die rest assume the role of sterile workers. Why do the workers not become solitary foundresses and rear their own offspring instead of working to rear the brood of another individual? Here I have used the tropical primitively eusocial wasp Ropalidia marginata to explore some factors that might potentially favour the worker strategy over the solitary founding strategy. Workers in multiple foundress nests may benefit by rearing brood more closely related to them than their own offspring would be. However, from previous work on this species it is known that relatedness between sisters is rather low and that workers therefore rear quite distantly related brood. Therefore, I have concentrated on factors other than genetic relatedness that might potentially favour the worker strategy. A total of 145 naturally initiated nests with different numbers of foundresses was monitored over a period of 16 months, and their productivities were compared. Although the total colony productivity increased, the per capita productivity did not increase with increasing foundress numbers. Colonies with larger foundress numbers did not produce significantly heavier progeny and did not produce them significantly faster than colonies with fewer individuals. The conspecific usurpers preferred to usurp single foundress colonies more often than multiple foundress colonies. Therefore, protection from conspecific usurpers might be an advantage of multiple foundress associations. About 10% of the multiple foundress nests experienced queen turnovers. This provides a finite chance to reproduce and gain some individual fitness for workers, at some future point of time. Wasps may not be similar in their reproductive abilities and those who are less fertile might be joining others who are more fertile. Testing such a hypothesis would require that individuals who have chosen to be subordinate cofoundresses in multiple foundress associations are forced to nest alone. During this study a total of 77 nests was monitored. Cofoundresses forced to nest alone had significantly lower productivity than natural solitary foundresses and also queens of multiple foundress nests who were forced to nest alone. This suggested that wasps are not similar either in their reproductive ability or brood rearing ability or both. To ascertain which of the factors was responsible for lower productivity in cofoundresses, productivity of wasps isolated into laboratory cages was compared. There was no significant difference in the productivity of isolated cofoundresses and isolated queens. This suggests that wasps are not subfertile per se but probably differ in their foraging and brood rearing abilities. The certainty with which resources are brought into the nest and therefore, the certainty with which the mean per capita productivity is attained, provides an automatic benefit of group living according to the central limit theorem. This prediction was also tested. The coefficient of variation of mean per capita productivity decreased significantly with increasing foundress numbers. Behavioural observations on another 36 colonies, with different number of adults, showed that the coefficient of variation of food brought to the nest and the rate at which larvae were fed, decreased significantly with increasing number of adults. A computer simulation was used to find out the effect of group size on the variance in feed larva. Assuming that larvae cannot be starved for too long and cannot utilize more than a certain amount of food at a time, the fitness of larvae was found to increase with an increase in the number of adults attending the nest. Previous work on R. marginata has been largely confined to postemergence colonies. An attempt was made to look at and compare social organization in preemergence colonies with that of postemergence colonies. It was found that the egg layer was not the most dominant animal in the well-established preemergence colonies. There were no detectable differences in the social organization of the preemergence colonies (of this study) with that of postemergence colonies of the earlier studies. Perhaps my conclusions drawn from studying preemergence colonies are therefore applicable more widely to the species. It can be concluded that the apparent increased fitness of the worker strategy over solitary foundress strategy does not come from any increase in per capita productivity, but comes instead from (i) the greater predictability with which the mean per capita productivity is attained in larger colonies, (ii) the lower probabilities of usurpation of larger colonies, (iii) queen turnovers that provide opportunities for workers in multiple foundress colonies to gain some direct individual fitness and (iv) the lower brood rearing abilities of workers in multiple foundress nests that make the worker strategy the best of a bad job. Ecology Wasps - Colony Eusocial Wasps Ropalidia Marginata Wasps - Altruism Wasp Social Insects Preemergence Colonies Brood Rearing Efficiency Eusocial Insects
59	Evolutionary interactions of brood parasites and their hosts : recognition, communication and breeding biology : a thesis presented in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Ecology at Massey University, Auckland, New Zealand Anderson, Michael Gareth January 2009 (has links) Obligate brood parasites lay their eggs in nests of other species, relying on these host parents to care for their offspring. This phenomenon has been a curiosity amongst researchers since its first description and has become a model study system for testing such ideas as coevolution and species recognition. This thesis examines a few of the many questions that arise from this breeding system. The New Zealand Grey Warbler (Gerygone igata) and its brood parasite, the Shining Cuckoo (Chrysococcyx lucidus) are used as the main study species, although research on the eviction behaviour of Common Cuckoos (Cuculus canorus) has also been conducted. First, the current state of knowledge and recent discoveries regarding nestling rejection abilities of hosts is reviewed in chapter one. Second, a comparative study of New Zealand passerine begging calls has been conducted to test for begging call similarity between a brood parasite and its host, as well as developing a new technique for detecting the mode of coevolution that may be occurring in the parasite – host relationship. Parent-offspring communication in Grey Warblers is also examined to test for both parental and nestlings Parents use both alarm calls to warn offspring of potential danger, and also parental feeding calls to elicit a begging response from nestlings. By contrast, nestlings are able to signal both age and short term levels of need to parents through the acoustic structure of the begging call. The evolutionary costs and benefits of egg eviction behaviour in the Common Cuckoo are also tested. An experimental approach showed that egg eviction had a growth cost, but this cost was temporary and restricted to during and immediately after the egg eviction phase. A pattern of compensatory growth was observed after the eviction period, so that during the later nestling stages there was no difference in mass, and no difference in fledging age. Finally, variation in the Grey Warbler breeding biology and Shining Cuckoo parasitism rates are examined through both time and across latitudes. This research has shown a counterintuitive pattern of breeding phenology across latitudes. These patterns have implications for Shining Cuckoos both in terms of timing of available nests and host selection. Keywords: Begging call, breeding phenology, brood parasitism, coevolution, Common Cuckoo, eviction, Grey Warbler, parent-offspring communication, Shining Cuckoo. brood parasitism co-evolution Grey warbler Shining cuckoo
60	Galactic ecofeminism and posthuman transcendence : the tentative utopias of Octavia E. Butler's Lilith's Brood Favreau, Alyssa 04 1900 (has links) No description available. Octavia E. Butler Lilith's Brood Xenogenesis posthumanisme posthumanism écoféminisme ecofeminism cyborg science fiction symbiogenesis symbiogenèse

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