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61.
We examine the role of spatial interactions in conservation easements placed on prairie pothole habitat in western Canada. One of the goals of the conservation easement program we study is to protect contiguous habitat. We identify endogenous spatial interactions among conservation easements and government protected land, independent of spatially correlated landscape features and local economic shocks that influence easement enrollment. We present evidence that easements increase the likelihood of subsequent easements on neighboring land. Government-protected land appears to have little effect on the location of conservation easements. These results imply that conservation agencies have leveraged past conservation investment to enroll more contiguous habitat in permanent easements through a combination of targeting and positive social interactions among neighboring landowners. 相似文献
62.
While factors influencing perceptions of drinking water have been well studied, those of aquatic ecosystems have been to lesser extent. We conducted a review to improve awareness of these factors. Environmental factors found to influence public perceptions of aquatic ecosystems were presence/absence of water plants and algae, presence/absence of floating debris, the odor, movement (for flowing waters) and clarity/turbidity of the water, and the type, condition, setting, naturalness, and overall aesthetic appeal of the ecosystem. Sociocultural factors found to influence public perceptions of aquatic ecosystems included age, education, gender, and place-based knowledge. We provide perspectives of how managers can better meet the diverse social demands placed on aquatic ecosystems. The importance and benefits of considering these perspectives may be especially beneficial where significant multi-generational and culturally relevant place-based knowledge exist. 相似文献
63.
H. Burda Rodney L. Honeycutt Sabine Begall Oliver Locker-Grütjen Andreas Scharff 《Behavioral ecology and sociobiology》2000,47(5):293-303
Eusociality in mammals is defined in the present paper by the following criteria: reproductive altruism (which involves reproductive division of labor and cooperative alloparental brood care), overlap of adult generations, and permanent (lifelong) philopatry. We argue that additional criteria such as the existence of castes, colony size, reproductive skew, and social cohesion are not pertinent to the definition of eusociality in mammals. According to our definition of mammalian eusociality, several rodent species of the African family Bathyergidae can be considered eusocial, including the naked mole-rat (Heterocephalus glaber), Damaraland mole-rat (Cryptomys damarensis), and several additional, if not all, species in the genus Cryptomys. Furthermore, some species of social voles (like Microtus ochrogaster) may also fulfill criteria of mammalian eusociality. Understanding the evolution of eusociality in mole-rats requires answers to two primary questions: (1) What are the preconditions for the development of their eusocial systems? (2) Why do offspring remain in the natal group rather than dispersing and reproducing? Eusociality in mammals is by definition a special case of monogamy (more specifically: monogyny one female breeding), involving prolonged pair bonding for more than one breeding period. We argue that eusociality in mole-rats evolved from a monogamous mating system where cooperative brood care was already established. A tendency for group living is considered to be an ancestral (plesiomorph) trait among African bathyergid mole-rats, linking them to other hystricognath rodents. A solitary lifestyle seen in some genera, such as Bathyergus, Georychus, and Heliophobius, is assumed to be a derived trait that arose independently in different lineages of bathyergids, possibly as a consequence of selective constraints associated with the subterranean environment. In proximate terms, in eusocial mole-rats either puberty is assumed to be developmentally delayed so that under natural conditions most animals die before dispersal is triggered (e.g., in the case of Heterocephalus) or dispersal is induced only by an incidental encounter with an unfamiliar, yet adequate sexual partner (e.g., in the case of Cryptomys). Ultimately, a combination of strategies involving either dispersal and/or philopatry can be beneficial, especially in a highly unpredictable environment. If genetic relatedness among siblings is high (e.g., a coefficient of relatedness of 0.5 or more), then philopatry would not invoke an appreciable loss of fitness, especially if the cost of dispersing is higher than staying within the natal group. High genetic relatedness is more likely in a monogamous mating system or a highly inbred population. In this paper, we argue that the preconditions for eusociality in bathyergid mole-rats were a monogamous mating system and high genetic relatedness among individuals. We argue against the aridity food-distribution hypothesis (AFDH) that suggests a causal relationship between cooperative foraging for patchily distributed resources and the origin of eusociality. The AFDH may explain group size dynamics of social mole-rats as a function of the distribution and availability of resources but it is inadequate to explain the formation of eusocial societies of mole-rats, especially with respect to providing preconditions conducive for the emergence of eusociality. 相似文献
64.
A molecular genetic analysis of social structure, dispersal, and interpack relationships of the African wild dog (Lycaon pictus ) 总被引:7,自引:0,他引:7
Derek J. Girman M. G. L. Mills Eli Geffen Robert K. Wayne 《Behavioral ecology and sociobiology》1997,40(3):187-198
The African wild dog is a highly social, pack-living predator of the African woodland and savannah. The archetypal wild dog
pack consists of a single dominant breeding pair, their offspring, and non-breeding adults who are either offspring or siblings
of one of the breeding pair. Non-breeding adults cooperate in hunting, provisioning and the protection of young. From these
observations follows the prediction that the genetic structure of wild dogs packs should resemble that of a multigenerational
family, with all same-sexed adults and offspring within a pack related as sibs or half-sibs. Additionally, a higher kinship
between females from neighboring packs should be evident if females tend to have small dispersal distances relative to males.
We test these predictions through analysis of mitochondrial DNA control region sequences and 14 microsatellite loci in nine
wild dog packs from Kruger National Park, Republic of South Africa. We show that as predicted, African wild dog packs generally
consist of an unrelated alpha male and female, subdominant close relatives, and offspring of the breeding pair. Sub-dominant
wild dogs occasionally reproduce but their offspring rarely survive to 1 year of age. Relatedness influences the timing and
location of dispersal events as dispersal events frequently coincide with a change in pack dominance hierarchy and dispersers
often move to areas with a high proportion of close relatives.
Received: 22 February 1996 / Accepted after revision: 16 November 1996 相似文献
65.
In young-of-the-year perch (Perca fluviatilis), individuals within groups differed in the degree of boldness, estimated by habitat utilisation and feeding activity in visual contact with a potential predator. We looked at changes in individual behaviour in connection with change of group composition. During the first period, perch were randomly assigned to groups, and time spent in open habitat versus in vegetation and number of prey attacks were registered. The perch were then categorised into personality types (shy, bold, intermediate) according to their behaviour. During the second period, fish were observed when sorted into new groups, each containing only one personality type. Shy individuals showed the largest changes in behaviour, and increased both the time spent in the open and the number of prey attacks when placed into the new groups. Feeding activity in shy fish during the second period was affected by group composition during the first period. After regrouping, bold individuals decreased their time in the open, whereas intermediate individuals did not change behaviour. Time in the open habitat was, to some extent, influenced by the behaviour of the other members of the group, but number of prey attacks was not. The behaviour of fish of the different personality types we have defined in this study seemed to be based on innate traits, but also modified by the influence of other group members and by habituation to the environment.Communicated by J.Krause 相似文献
66.
Patrick Gautier Kurtulus Olgun Nazan Uzum Claude Miaud 《Behavioral ecology and sociobiology》2006,59(6):836-841
Gregarious behaviour (i.e. living in groups in contrast to a solitary life) is commonly observed in mammals, but rarely documented
in amphibians. Environmental features and/or animal mutual attractions can promote the formation of aggregations that may
both reduce the risks of dehydration and predation and increase mate access and fitness. Luschan’s salamander (Mertensiella luschani) lives in permanently arid Mediterranean environments; individuals shelter in cracks and crevices and leave only during favourable
periods. In this study we examined the role of chemical tracks, in self and conspecific recognition (i.e. gregarious/solitary
behaviour), on the social structure of this species. Our results show that juveniles and adults of both sexes use chemical
scents deposited on substrate to relocate their shelter. In contrast to numerous other salamander species, Luschan’s salamanders
also use social information, conveyed by conspecific scents, to identify a safe shelter. Furthermore, this scent marking does
not play a role in sexual attraction but allows sex discrimination. This species exhibits gregarious behaviour (i.e. conspecific
attraction) as a possible adaptation to dry environments. We discuss both ultimate and proximate factors in the evolution
from a solitary to a gregarious life. 相似文献
67.
Social parasitism has evolved at least ten times in the allodapine bees but studies that explore the parasite’s integration
and exploitation of host colonies are lacking. Using colony content and dissection data, we examine how Inquilina schwarzi affects the social organisation of its host Exoneura robusta. Our samples include three critical periods in the host life cycle: initial formation of dominance hierarchies in late autumn,
commencement of oviposition by host queens in late winter, and development of secondary reproductives in late spring. I. schwarzi preferentially parasitises larger host colonies in autumn, but during autumn and winter, the parasite appears to be socially
invisible, living in the nest without disrupting the normal functioning of these colonies. Inquilines begin egg laying much
later than their hosts, and by late spring, they have disrupted host reproductive hierarchies, leading to lower skew in ovarian
sizes of their host nestmates. Living invisibly within the host nest for the first 6 months and waiting until well after host
reproduction has begun before disrupting their social organisation appear to be unique among social insects. Such a change
in strategy may be facilitated by the different social systems found in allodapine bees, with the social parasites possibly
disrupting the reproductive hierarchies during spring to prevent or reduce the normal dispersal of some host females from
their natal nests. 相似文献
68.
Determining the evolutionary basis of variation in reproductive skew (degree of sharing of reproduction among coexisting individuals) is an important task both because skew varies widely across social taxa and because testing models of skew evolution permits tests of kin selection theory. Using parentage analyses based on microsatellite markers, we measured skew among female eggs (n=32.3 eggs per colony, range=20–68) in 17 polygynous colonies from a UK field population of the ant Leptothorax acervorum. We used skew among eggs as our principal measure of skew because of the high degree of queen turnover in the study population. Queens within colonies did not make significantly unequal contributions to queen and worker adult or pupal offspring, indicating that skew among female eggs reflected skew among daughter queens. On average, both skew among female eggs (measured by the B index) and queen–queen relatedness proved to be low (means±SE=0.06±0.02 and 0.28±0.08, respectively). However, contrary to current skew models, there was no significant association of skew with either relatedness or worker number (used as a measure of productivity). In L. acervorum, predictions of the concession model of skew may hold between but not within populations because queens are unable to assess their relatedness to other queens within colonies. Additional phenomena that may help maintain low skew in the study population include indiscriminate infanticide in the form of egg cannibalism and split sex ratios that penalize reproductive monopoly by single queens within polygynous colonies. 相似文献
69.
The benefit of group living is a fundamental question in social evolution. For sociality to evolve, each individual must gain
in terms of some fitness component by living in larger groups. However, in social insects, a decrease in per capita success in brood production has been observed in larger groups. While it has been proposed that this decrease could be outweighed
by an increase in the predictability of success, a functional basis to this hypothesis has so far never been demonstrated.
In this paper, using foraging economics as a functional proxy to colony productivity, we construct a model to explore how
number of foragers in the colony interacts with the ecology of resources to influence per capita foraging success and its
predictability. The results of the model show that there is no increase in per capita foraging success in larger colonies
under most circumstances, though there is an increase in its predictability. We then test the model with empirical data on
the foraging behavior of the primitively eusocial wasp, Ropalidia marginata. The consistency between the data and the model suggests that foraging economics could provide a robust functional basis
in explaining the relationship between colony size and productivity. 相似文献
70.
The effects of immigration on the behaviour of residents may have important implications for the local population characteristics. A manipulative laboratory experiment with yearlings of the common lizard (Lacerta vivipara) was performed to test whether the introduction of dispersing or philopatric individuals influences the short-term spacing behaviour of resident individuals. Staged encounters were carried out to induce interactions within dyads. The home cage of each responding individual was connected by a corridor to an unfamiliar “arrival cage” to measure the latency to leave their own home cage after each encounter. Our results showed that the time that pairs spent in close proximity was longer when a dispersing individual was introduced in the home cage. The latency to leave the home cage was longer after the introduction of a dispersing individual. These response variables were not influenced by the relative body sizes of contestants nor by the level of aggression towards each other. In contrast, the aggressive response was significantly influenced by the residency asymmetry established experimentally (“owner” of the home cage vs introduced individual). Our results suggest that the space use by resident individuals is influenced by the dispersal status of conspecifics. The potential ultimate causes driving this effect are discussed. 相似文献