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1.
研究了环境污染对Smith系统中种群生存的长期影响,考虑到种群数量的变化对种群个体体内毒素浓度和环境中毒素浓度的影响,对传统的Smith系统进行了修正,并且给出了一些种群弱平均持续生存和绝灭的充分条件.在一定条件下得到了弱平均持续生存与绝灭的阈值.  相似文献   

2.
为了实现对同一生境两亚种群随机博弈过程的人工控制,本文基于Moran过程和进化博弈论的研究,定义了与生境因素有关的博弈支付矩阵;同时考虑到两类个体受环境影响程度不同,即环境对不同种群的选择强度不同,引入了不同的选择强度,进而得到种群的适合度,建立了具有选择差异的随机博弈进化动力模型;得出种群的固定概率,并讨论了选择差异对种群固定的影响,在此基础上通过控制环境因素对种群进行优化.最后给出算例说明了模型的有效性和可行性.  相似文献   

3.
闽东北海域假长缝拟对虾种群分布格局强度   总被引:1,自引:1,他引:0       下载免费PDF全文
以负二项参数、Mrisita指数、平均拥挤度、聚块指数和扩散系数为种群分布格局强度指标,分析了闽东北海域假长缝拟对虾(Parapenaeus fissuroides Crosnier)种群分布格局强度,探讨了种群分布格局强度生态学意义及其影响因子。结果显示:假长缝拟对虾种群聚集强度和聚块性夏季最强,其余依次为秋季、春季和冬季,平均拥挤度夏季最大,其次是秋季、冬季,春季最小,扩散程度春季最大,其次是冬季、秋季,夏季最小。负二项参数和Mrisita指数表征种群聚集强度,聚块指数体现种群斑块的组成形式,个体平均拥挤度指数反映平均个体实际的拥挤程度,扩散系数反映种群扩散程度。饵料浮游动物是影响假长缝拟对虾种群聚集强度的主要因子,种内竞争是影响假长缝拟对虾种群扩散程度的主要因子。  相似文献   

4.
以负二项参数、平均拥挤度和聚块指数为种群分布格局强度指标,分析了闽东北海域中华管鞭虾(Solenocera crassicornis)种群聚集特性,探讨了种群聚集特性的驱动因子。结果表明,中华管鞭虾种群聚集强度较强,个体平均拥挤度较高,种群主要集中于少数团聚的斑块,不同季节种群聚集特性差异显著,春季,种群聚集强度较强,个体平均拥挤度最低,种群主要由单一团聚的斑块组成;夏季,种群聚集强度较弱,个体平均拥挤度高,种群主要由4个斑块组成;秋季,种群聚集强度最弱,个体平均拥挤度较低,种群主要由7个斑块组成;冬季,种群聚集强度最强,个体平均拥挤度最高,种群主要由单一团聚的大斑块组成。随着个体生长速度的增大,种群呈现扩散的趋势,饵料浮游动物生物量和底层水温是影响种群聚集强度的主要因子。  相似文献   

5.
本文研究同时考虑内外部博弈的两个种群的随机进化动态,博弈的双方个体既可以来自不同种群,也可以来自同一种群,不同种群个体之间的博弈为非对称的,同一种群个体之间的博弈为对称的.我们首先介绍由四个收益矩阵描述的两个种群博弈模型,然后通过突变-选择Moran过程分析了这种随机共进化过程,最后推导出中性选择及弱选择时策略均衡频率的公式.  相似文献   

6.
Leslie系统在污染环境下有关生存问题的分析   总被引:1,自引:0,他引:1  
张镜  王克 《生物数学学报》2006,21(4):501-508
研究了在污染环境中毒素对Leslie资源-消费者系统中消费者种群的长期影响,给出了种群弱持续生存和灭绝的条件.  相似文献   

7.
黄山青冈(Cyclobalanopsis glauca)个体繁殖贡献率   总被引:3,自引:0,他引:3  
陈小勇  宋永昌 《生态学报》1999,19(5):677-682
结合Schoen & Stewart和Roeder等的方法构建了一个根据幼苗中配子的频率计算种群内各个体繁殖贡献率的模型。并对黄山一青冈种群内个体繁殖贡献率进行了计算。结果表明,该种群中幼苗的观察频率与期望频率存在显著的差异。成体的经存在较大的差异,3个个体的繁殖率为0,对幼苗率最大的达10.89%,种群外个体对幼苗的贡献率也较大,为18.42%。  相似文献   

8.
为明确甘肃武威地区酿酒葡萄园叶蝉种群发生动态及其与气象因子之间的关系.连续2年应用黄板诱集法对酿酒葡萄园叶蝉种群动态进行定时定点监测;采用相关分析、回归分析、通径分析、主成分分析、灰色关联度等方法分析其与气象因子的关系.结果表明,酿酒葡萄园叶蝉一年有4个发生高峰,分别为5月底6月初、7月中旬、8月上中旬和9月中旬,5月底6月初种群数量达最高,为集中为害关键期.相关性分析结果表明,叶蝉种群动态与平均最低温度、平均最高相对湿度呈显著负相关(P=0.0129;P=0.0465),与平均相对湿度、平均最低相对湿度呈极显著负相关(P=0.0031;P=0.0041).回归分析表明,平均最低温度、平均相对湿度、平均最高相对湿度和平均最高相对湿度综合影响叶蝉种群变化,其中平均相对湿度和平均最低相对湿度是主要因素,对叶蝉种群动态的反向直接作用最大,平均最低温度和平均最高相对湿度对叶蝉种群动态的影响主要通过平均相对湿度和平均最低相对湿度间接发生.主成分分析表明,平均相对湿度和平均最低相对湿度是主要成分,累积方差贡献率达85%.灰色关联度分析结果表明,平均相对湿度和平均最低相对湿度与叶蝉种群数量变化的关联度最大,是影响种群动态的关键影响因子.平均相对湿度和平均最低相对湿度是影响酿酒葡萄园叶蝉种群数量变化的主要气象因子.  相似文献   

9.
15℃时,稀土元素对轮虫种群增长具有明显的促进作用,随着稀土元素含量的增加,轮虫种群密度随之上升,后代混交百分率呈逐渐上升趋势,稀土浓度为0.005mgL-1时,种群平均携卵率量高于其它浓度组,混交率居中。25℃和30℃时,稀土适宜浓度为0.001mgL-1,在该浓度下种群密度最大、混交率较低,平均携卵量居中。30℃时,0.010mgL-1对种群增长具抑制作用。  相似文献   

10.
污染环境下单种群模型生存阈值   总被引:1,自引:0,他引:1  
本论文研究了污染环境下毒素对单种群生存的影响。在环境容纳量较小的假设下建立了生物种群模型,在该模型中不但考虑了环境毒素浓度对生物个体生存的影响,还考虑了生物个体从食物链中吸收的毒素对其影响。通过研究得到种群一致持续生存和若平均持续生存的充分条件,同时得到种群持续生存依赖于模型参数和生物个体体内毒素净化率的某些充分条件.  相似文献   

11.
Despite the importance of consumers in structuring communities, and the widespread assumption that consumption is strongest at low latitudes, empirical tests for global scale patterns in the magnitude of consumer impacts are limited. In marine systems, the long tradition of experimentally excluding herbivores in their natural environments allows consumer impacts to be quantified on global scales using consistent methodology. We present a quantitative synthesis of 613 marine herbivore exclusion experiments to test the influence of consumer traits, producer traits and the environment on the strength of herbivore impacts on benthic producers. Across the globe, marine herbivores profoundly reduced producer abundance (by 68% on average), with strongest effects in rocky intertidal habitats and the weakest effects on habitats dominated by vascular plants. Unexpectedly, we found little or no influence of latitude or mean annual water temperature. Instead, herbivore impacts differed most consistently among producer taxonomic and morphological groups. Our results show that grazing impacts on plant abundance are better predicted by producer traits than by large-scale variation in habitat or mean temperature, and that there is a previously unrecognised degree of phylogenetic conservatism in producer susceptibility to consumption.  相似文献   

12.
Ross Cressman  Vlastimil Křivan 《Oikos》2010,119(8):1231-1242
In classical games that have been applied to ecology, individual fitness is either density independent or population density is fixed. This article focuses on the habitat selection game where fitness depends on the population density that evolves over time. This model assumes that changes in animal distribution operate on a fast time scale when compared to demographic processes. Of particular interest is whether it is true, as one might expect, that resident phenotypes who use density‐dependent optimal foraging strategies are evolutionarily stable with respect to invasions by mutant strategies. In fact, we show that evolutionary stability does not require that residents use the evolutionarily stable strategy (ESS) at every population density; rather it is the combined resident–mutant system that must be at an evolutionary stable state. That is, the separation of time scales assumption between behavioral and ecological processes does not imply that these processes are independent. When only consumer population dynamics in several habitats are considered (i. e. when resources do not undergo population dynamics), we show that the existence of optimal foragers forces the resident‐mutant system to approach carrying capacity in each habitat even though the mutants do not die out. Thus, the ideal free distribution (IFD) for the single‐species habitat selection game becomes an evolutionarily stable state that describes a mixture of resident and mutant phenotypes rather than a strategy adopted by all individuals in the system. Also discussed is how these results are affected when animal distribution and demographic processes act on the same time scale.  相似文献   

13.
Feeding in groups often gives rise to joining: feeding from other's discoveries. The joining decision has been modeled as a producer-scrounger game where the producer strategy consists of searching for one's food and the scrounger strategy consists of searching for food discovered by others. Previous models revealed that the evolutionarily stable proportion of scrounging mostly depends on the fraction of each food patch available only to its producer. These early models are static and state independent and are therefore unable to explore whether the time of day, the animal's state, and the degree of predation hazard influence an individual's decision of whether to use the producer or scrounger strategy. To investigate these issues, we developed a state-dependent dynamic producer-scrounger game model. The model predicts that, early in the day, low reserves promote a preference for the scrounger strategy, while the same condition late in the day favors the use of the producer strategy. Under rich and clumped food, the availability of scrounging can improve the daily survival of any average group member. The model suggests only weak effects of predation hazard on the use of scrounging. Future developments should consider the effects of dominance asymmetries and allowing foragers a choice between foraging alone or in a group harboring an evolutionarily stable frequency of scrounger.  相似文献   

14.
Animals can adjust their behaviours depending on ecological context (i.e., behavioural plasticity), and an individual's response to a given context may also vary from occasion to occasion (intra‐individual variability). Recognizing the roles of both behavioural plasticity and intra‐individual variability is important in understanding how behavioural diversity is maintained within populations. However, how the ecological context itself influences the individual behavioural response and intra‐individual variability (e.g., how variable an individual is in their behavioural expression) remains largely unexplored. Here, we examine boldness expression (the duration of startle response) in a specialised spider‐eating jumping spider, Portia labiata, across three contexts following a mild disturbance: presence of a conspecific intruder (most dangerous), environmental change but no conspecific intruder, and no conspecific intruder or environmental change (safest). We found that context does not significantly influence the average boldness expression at the population level. However, each individual responded to each context differently, and the repeatability of boldness expression—the proportion of behavioural variation attributable to the between ‐individual level—is context‐dependent. We also found that in the presence of a conspecific intruder, spiders behave less predictably than in the environmental change context, but not differently from the safest context. These findings may suggest that the presence of conspecifics influences behavioural consistency in individuals, but that this may occur without influencing the population average behaviour.  相似文献   

15.
Behavioural decisions in a social context commonly have frequency-dependent outcomes and so require analysis using evolutionary game theory. Learning provides a mechanism for tracking changing conditions and it has frequently been predicted to supplant fixed behaviour in shifting environments; yet few studies have examined the evolution of learning specifically in a game-theoretic context. We present a model that examines the evolution of learning in a frequency-dependent context created by a producer–scrounger game, where producers search for their own resources and scroungers usurp the discoveries of producers. We ask whether a learning mutant that can optimize its use of producer and scrounger to local conditions can invade a population of non-learning individuals that play producer and scrounger with fixed probabilities. We find that learning provides an initial advantage but never evolves to fixation. Once a stable equilibrium is attained, the population is always made up of a majority of fixed players and a minority of learning individuals. This result is robust to variation in the initial proportion of fixed individuals, the rate of within- and between-generation environmental change, and population size. Such learning polymorphisms will manifest themselves in a wide range of contexts, providing an important element leading to behavioural syndromes.  相似文献   

16.
We consider a stoichiometric population model of two producers and one consumer. Stoichiometry can be thought of as the tracking of food quality in addition to food quantity. Our model assumes a reduced rate of conversion of biomass from producer to consumer when food quality is low. The model is open for carbon but closed for nutrient. The introduction of the second producer, which competes with the first, leads to new equilibria, new limit cycles, and new bifurcations. The focus of this paper is on the bifurcations which are the result of enrichment. The primary parameters we vary are the growth rates of both producers. Secondary variable parameters are the total nutrients in the system, and the producer nutrient uptake rates. The possible equilibria are: no-life, one-producer, coexistence of both producers, the consumer coexisting with either producer, and the consumer coexisting with both producers. We observe limit cycles in the latter three coexistence combinations. Bifurcation diagrams along with corresponding representative time series summarize the behaviours observed for this model.  相似文献   

17.
Global warming impacts virtually all biota and ecosystems. Many of these impacts are mediated through direct effects of temperature on individual vital rates. Yet how this translates from the individual to the population level is still poorly understood, hampering the assessment of global warming impacts on population structure and dynamics. Here, we study the effects of temperature on intraspecific competition and cannibalism and the population dynamical consequences in a size-structured fish population. We use a physiologically structured consumer-resource model in which we explicitly model the temperature dependencies of the consumer vital rates and the resource population growth rate. Our model predicts that increased temperature decreases resource density despite higher resource growth rates, reflecting stronger intraspecific competition among consumers. At a critical temperature, the consumer population dynamics destabilize and shift from a stable equilibrium to competition-driven generation cycles that are dominated by recruits. As a consequence, maximum age decreases and the proportion of younger and smaller-sized fish increases. These model predictions support the hypothesis of decreasing mean body sizes due to increased temperatures. We conclude that in size-structured fish populations, global warming may increase competition, favor smaller size classes, and induce regime shifts that destabilize population and community dynamics.  相似文献   

18.
In tristylous Pontederia cordata (Pontederiaceae), conspicuous differences in the size of pollen grains and discrete variation in the length of reproductive organs provide a suitable experimental system for the study of fine-scale pollination events. At a population of P. cordata at Pothole Lake, Ontario, the majority of flowers are visited by bumble bees which remove on average 45% of the pollen during single visits to previously unvisited flowers. The amount and proportion of pollen removed are significantly different among floral morphs and stamen levels. Deposition of the three pollen types on the bodies of Bombus spp., Apis mellifera and Melissodes apicata is non-random: large- and medium-size pollen tends to remain in greatest concentrations where it is initially deposited, whereas small-size pollen is displaced from the proboscis to more posterior body parts, probably as a result of grooming activities. Stigmatic pollen loads of individual flowers following single bumble bee visits indicate that the mid-styled morph captures the largest total pollen load, and the short-styled morph the smallest. The largest proportion of compatible pollen grains is deposited on stigmas of the long-styled morph. Pollen load data from "single visit" flowers is in general agreement with previously published population surveys involving multiply-visited flowers.  相似文献   

19.
We consider a stoichiometric population model of two producers and one consumer. Stoichiometry can be thought of as the tracking of food quality in addition to food quantity. Our model assumes a reduced rate of conversion of biomass from producer to consumer when food quality is low. The model is open for carbon but closed for nutrient. The introduction of the second producer, which competes with the first, leads to new equilibria, new limit cycles, and new bifurcations. The focus of this paper is on the bifurcations which are the result of enrichment. The primary parameters we vary are the growth rates of both producers. Secondary variable parameters are the total nutrients in the system, and the producer nutrient uptake rates. The possible equilibria are: no-life, one-producer, coexistence of both producers, the consumer coexisting with either producer, and the consumer coexisting with both producers. We observe limit cycles in the latter three coexistence combinations. Bifurcation diagrams along with corresponding representative time series summarize the behaviours observed for this model.  相似文献   

20.
Most molecular measures of inbreeding do not measure inbreeding at the scale that is most relevant for understanding inbreeding depression—namely the proportion of the genome that is identical-by-descent (IBD). The inbreeding coefficient FPed obtained from pedigrees is a valuable estimator of IBD, but pedigrees are not always available, and cannot capture inbreeding loops that reach back in time further than the pedigree. We here propose a molecular approach to quantify the realized proportion of the genome that is IBD (propIBD), and we apply this method to a wild and a captive population of zebra finches (Taeniopygia guttata). In each of 948 wild and 1057 captive individuals we analyzed available single-nucleotide polymorphism (SNP) data (260 SNPs) spread over four different genomic regions in each population. This allowed us to determine whether any of these four regions was completely homozygous within an individual, which indicates IBD with high confidence. In the highly nomadic wild population, we did not find a single case of IBD, implying that inbreeding must be extremely rare (propIBD=0–0.00094, 95% CI). In the captive population, a five-generation pedigree strongly underestimated the average amount of realized inbreeding (FPed=0.013<propIBD=0.064), as expected given that pedigree founders were already related. We suggest that this SNP-based technique is generally useful for quantifying inbreeding at the individual or population level, and we show analytically that it can capture inbreeding loops that reach back up to a few hundred generations.  相似文献   

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