珠海市陆生天然次生林优势种的生态位

在珠海市10个陆生次生林群落中设置了112个10m×10m样方,用于珠海市次生林群落23个优势种的生态位宽度和生态位重叠的研究。结果表明:珠海次生林群落23个优势种的Shannon-Wiener生态位宽度和Levins生态位变度值范围为0.4049～0.7736和0.0551～0.3086,生态位宽度较大的种类分别是山油柑(Acronychia pedunculata)、大头茶(Gordonia axillaris)、银柴(Aporosa dioica)、小盘木(Microdesmis casearifolia)、白颜树(Giron-niera subaequalis)和假苹婆(Sterculia lanceolata);生态位相似性比例值为0～0.3810,银柴与阴香(Cinnamomum burmanii)的生态位相似性比例值最高;山油柑与另外22个优势种均存在不同程度的生态位重叠;大头茶只与少数优势种存在生态位重叠;另有20.6%的种对之间不存在生态位重叠。建议使用山油柑、大头茶、白颜树和黄桐(Endospermum chinense)等生态位宽度较高、分布广泛、适应力强的树种,进行森林恢复与人工林改造。     

古浪县北部荒漠植被主要植物种的生态位特征

利用Shannon-Wiener生态位宽度公式和Pianka生态位重叠公式,计测分析了甘肃省古浪县北部荒漠植被主要植物种在不同植被演替阶段的生态位宽度和生态位重叠。结果表明:在流动沙地上花棒的生态位宽度最大,其次是沙蒿;在半固定沙地上白刺的生态位宽度最大;在固定沙地上,不论是封育植被还是未封育植被中均是花棒的生态位最宽。同一植物种的生态位随着植被演替阶段的变化而发生变化,这种变化反映了不同演替阶段下的植被恢复效果。优势种的生态位重叠大,生态位宽的物种对重叠值也大,相同物种对在不同演替阶段的生态位重叠不一致。有些物种生态位宽度窄,但重叠值大,是由荒漠植被区物种分布存在生境斑块现象造成的。     

菜田蜘蛛群落组成及生态位分析

根据2006年5月至8月对蕃茄、茄子、豆角、青椒、尖椒及油菜共6种蔬菜田蜘蛛种类及数量的系统调查,经初步整理鉴定,隶属于9科19属27种。通过时空二维生态位分析,星豹蛛的二维宽度最大,草间钻头蛛和齿螯额角蛛的二维重叠值最大。应用模糊聚类法对群落的相似性进行分析,以λ=0.68为聚类阈值,可将9种菜田优势种蜘蛛划分为1个明显竞争群及3个分离种。以λ=0.9736为聚类阈值,可将菜田蜘蛛时间序列分为5月份,6、7月份和8月份3个状态集,即蜘蛛群落建立、发展和瓦解3个阶段。     

Environmental and neighbourhood effects on tree fern distributions in a neotropical lowland rain forest

Questions: To what extent are the distributions of tropical rain forest tree ferns (Cyatheaceae) related to environmental variation, and is habitat specialization likely to play a role in their local coexistence? Location: Lowland rain forest at La Selva Biological Station, Costa Rica. Methods: Generalized linear (GLM) and generalized additive (GAM) logistic regression were used to model the incidence of four tree fern species in relation to environmental and neighbourhood variables in 1154 inventory plots regularly distributed across 6 km² of old‐growth forest. Small and large size classes of the two most abundant species were modelled separately to see whether habitat associations change with ontogeny. Results: GLM and GAM model results were similar. All species had significant distributional biases with respect to micro‐habitat. Environmental variables describing soil variation were included in the models most often, followed by topographic and forest structural variables. The distributions of small individuals were more strongly related to environmental variation than those of larger individuals. Significant neighbourhood effects (spatial autocorrelation in intraspecific distributions and non‐random overlaps in the distributions of certain species pairs) were also identified. Overlaps between congeners did not differ from random, but there was a highly significant overlap in the distributions of the two most common species. Conclusions: Our results support the view that habitat specialization is an important determinant of where on the rain forest landscape tree ferns grow, especially for juvenile plants. However, other factors, such as dispersal limitation, may also contribute to their local coexistence.     

Paneth cells drive intestinal stem cell competition and clonality in aging and calorie restriction

Calorie restriction has been recently shown to increase intestinal stem cell competition and to reduce mutation fixation in young mice. However, the impact of aging on this process is unknown. By employing Confetti reporter mice, here we show that, unexpectedly, old mice have more intestinal stem cell (ISC) competition than young mice. Moreover, differently from what observed in young mice, calorie restriction, when applied at late-life, decreases this process. Importantly, we also observed a strong correlation between the ISC competition and Paneth cell number. In vivo analysis and in vitro organoid experiments indicated that Paneth cells play a major role in driving intestinal stem cell competition and crypt clonality. Taken together, our results provide evidence that increasing the number of Paneth cells can increase the number of competitive ISCs, representing a valuable therapeutic target to delay fixation of mutated intestinal stem cells.     

Variation in the thermal ecology of an endemic iguana from Mexico reduces its vulnerability to global warming

The persistence of reptile populations in a specific location is influenced by individuals’ capacity to regulate their body temperatures, among other factors. Anthropogenic climate change may pose a risk to the survival of ectothermic animals due to their dependence on external heat sources to thermoregulate. In this study, we calculated indices of thermal habitat quality, thermoregulatory precision, and thermoregulatory effectiveness for the endemic spiny-tailed iguana Ctenosaura oaxacana. We evaluated these indices and the thermoregulatory behavior of the iguanas in the four types of vegetation that provide the most favorable conditions for thermoregulation. We also performed our experiments during both the wet and dry seasons to capture the full range of thermal conditions available to C. oaxacana over the course of a year. Finally, we evaluated the potential niche for the iguana in the years 2020, 2050, and 2080. Thermoregulation depends on both seasonal and environmental factors in this species. We found that thermoregulation effectiveness in both wet and dry seasons depends not only on the thermal conditions of the immediate environment, but also on the cover vegetation and habitat structure available across the range of habitats the species uses. Thus, heterogeneous habitats with dispersed vegetation may be most suitable for this species’ thermoregulatory strategy. Likewise, niche modeling results suggested that suitable habitat for our study species may continue to be available for the next few decades, despite global warming tendencies, as long as cover vegetation remains unaltered. Our results suggest that thermoregulation is a complex process that cannot be generalized for all ectothermic species inhabiting a given region. We also found that temperature changes are not the only factor one must consider when estimating the risk of species loss. To understand the necessary thermal conditions and extinction risk for any ectothermic species, it is necessary to focus studies on the species’ general ecology.     

The evolution of novel host use is unlikely to be constrained by trade‐offs or a lack of genetic variation

The genetic and ecological factors that shape the evolution of animal diets remain poorly understood. For herbivorous insects, the expectation has been that trade‐offs exist, such that adaptation to one host plant reduces performance on other potential hosts. We investigated the genetic architecture of alternative host use by rearing individual Lycaeides melissa butterflies from two wild populations in a crossed design on two hosts (one native and one introduced) and analysing the genetic basis of differences in performance using genomic approaches. Survival during the experiment was highest when butterfly larvae were reared on their natal host plant, consistent with local adaptation. However, cross‐host correlations in performance among families (within populations) were not different from zero. We found that L. melissa populations possess genetic variation for larval performance and variation in performance had a polygenic basis. We documented very few genetic variants with trade‐offs that would inherently constrain diet breadth by preventing the optimization of performance across hosts. Instead, most genetic variants that affected performance on one host had little to no effect on the other host. In total, these results suggest that genetic trade‐offs are not the primary cause of dietary specialization in L. melissa butterflies.