Comparison of acoustic and traditional point count methods to assess bird diversity and composition in the Aberdare National Park,Kenya

Afromontane forests, like those in the Aberdare National Park (ANP) in Kenya, sustain unique avifaunal assemblages. There is a growing need for biodiversity inventories for Afromontane forests, especially through the utilisation of unskilled observers. Acoustic surveys are a potential aid to this, but more comparisons of this technique with that of traditional point counts are needed. We conducted a systematic survey of the ANP avifauna, assessing whether acoustic and traditional surveys resulted in different species richness scores, and whether this varied with habitat and species characteristics. We also investigated the role of habitat and elevation in driving variation in species richness. The ANP provides habitat types including scrub, moorland, montane, hagenia and bamboo forests. Overall, the surveys yielded 101 identified species. The acoustic method resulted in higher species richness scores compared to the traditional method across all habitats, and the relative performance of the two methods did not vary with habitat type or visibility. The methods detected different species, suggesting that they should be used together to maximise the range of species recorded. We found that habitat type was the primary driver of variation in species richness, with scrub and montane forest having higher species richness scores than other habitats.     

生境异质度对稻田捕食性天敌及水稻害虫的生态调节有效性

【目的】探索生境高异质度对稻田捕食性天敌及水稻害虫的生态调节有效性,了解这种策略是否会引起其他植食性昆虫成为水稻重要害虫的风险。【方法】2017-2018年连续2年种植单季稻,在稻田边缘种植花生与大豆,构建高异质性边缘生境稻田(rice paddy with high heterogeneous marginal habitats, HHR),调查HHR稻田与简单低异质性边缘生境稻田(rice paddy with low heterogeneous marginal habitats, LHR)中捕食性天敌与水稻害虫功能团的发生规律与相关性,计算益害比。【结果】2017年在HHR稻田中采集到捕食性天敌40种,1 667头;在LHR稻田中采集到捕食性天敌30种,991头。2018年在HHR稻田中采集到捕食性天敌33种,1 384头;在LHR稻田中采集到捕食性天敌34种,1 031头。HHR与LHR两类稻田中获得的捕食性天敌群落重要值P_i≥0.01的物种相似度很高,优势种相似。2017年HHR稻田的捕食性天敌物种丰富度明显高于LHR稻田,这种差异主要由群落重要值P_i<0.01的种类引起。2018年两类稻田的捕食性天敌物种丰富度没有差异。单位样方面积内的捕食性天敌个体数量,HHR中明显高于LHR,这种差异在2017年的分蘖期与成熟期达显著水平(P<0.05),在2018年的开花期极显著(P<0.01)。2017年在HHR中采集到水稻害虫22种,637头;在LHR中采集到水稻害虫19种,743头;物种相似性系数0.88。2018年在HHR中采集到水稻害虫16种,1 011头;在LHR中采集到水稻害虫16种,2 014头;物种相似性系数0.75;主要害虫物种组成结构相同。水稻害虫数量发生的时间动态分析表明,在分蘖期,虽然HHR稻田中的水稻害虫数量明显高于LHR(P<0.05),但此期害虫的数量不多,发生较轻。在孕穗期、开花期与成熟期,HHR稻田中的水稻害虫数量明显低于LHR稻田,这种差异在2017年的成熟期与2018年的孕穗期极显著(P<0.01),在2018年的成熟期差异显著(P<0.05)。2017年HHR和LHR中个体数量益害比N_pi值分别为2.62和1.33;2018年分别为1.37和0.51。【结论】具有高异质性边缘生境的稻田,能提高系统对捕食性天敌物种的涵养潜力,显著提高稻田捕食性天敌个体数量,提高益害比,具有更好的控制害虫的物质基础,促进捕食性天敌对水稻害虫的生态控制效能,不会引起其他植食性昆虫演变为水稻重要害虫风险,可为保护稻田生态系统天敌发挥生态效能提供可借鉴的策略与方法。     

Spatial heterogeneity in climate change effects decouples the long‐term dynamics of wild reindeer populations in the high Arctic

The ‘Moran effect’ predicts that dynamics of populations of a species are synchronized over similar distances as their environmental drivers. Strong population synchrony reduces species viability, but spatial heterogeneity in density dependence, the environment, or its ecological responses may decouple dynamics in space, preventing extinctions. How such heterogeneity buffers impacts of global change on large‐scale population dynamics is not well studied. Here, we show that spatially autocorrelated fluctuations in annual winter weather synchronize wild reindeer dynamics across high‐Arctic Svalbard, while, paradoxically, spatial variation in winter climate trends contribute to diverging local population trajectories. Warmer summers have improved the carrying capacity and apparently led to increased total reindeer abundance. However, fluctuations in population size seem mainly driven by negative effects of stochastic winter rain‐on‐snow (ROS) events causing icing, with strongest effects at high densities. Count data for 10 reindeer populations 8–324 km apart suggested that density‐dependent ROS effects contributed to synchrony in population dynamics, mainly through spatially autocorrelated mortality. By comparing one coastal and one ‘continental’ reindeer population over four decades, we show that locally contrasting abundance trends can arise from spatial differences in climate change and responses to weather. The coastal population experienced a larger increase in ROS, and a stronger density‐dependent ROS effect on population growth rates, than the continental population. In contrast, the latter experienced stronger summer warming and showed the strongest positive response to summer temperatures. Accordingly, contrasting net effects of a recent climate regime shift—with increased ROS and harsher winters, yet higher summer temperatures and improved carrying capacity—led to negative and positive abundance trends in the coastal and continental population respectively. Thus, synchronized population fluctuations by climatic drivers can be buffered by spatial heterogeneity in the same drivers, as well as in the ecological responses, averaging out climate change effects at larger spatial scales.     

Interactions between soil heterogeneity and freezing: Implications for grassland plant diversity and relative species abundances

Plant stress resulting from soil freezing is expected to increase in northern temperate regions over the next century due to reductions in snow cover caused by climate change. Within plant communities, soil spatial heterogeneity can potentially buffer the effects of plant freezing stress by increasing the availability of soil microsites that function as microrefugia. Moreover, increased species richness resulting from soil heterogeneity can increase the likelihood of stress‐tolerant species being present in a community. We used a field experiment to examine interactions between soil heterogeneity and increased freezing intensity (achieved via snow removal) on plant abundance and diversity in a grassland. Patches of topsoil were mixed with either sand or woodchips to create heterogeneous and homogeneous treatments, and plant community responses to snow removal were assessed over three growing seasons. Soil heterogeneity interacted significantly with snow removal, but it either buffered or exacerbated the snow removal response depending on the specific substrate (sand vs. woodchips) and plant functional group. In turn, snow removal influenced plant responses to soil heterogeneity; for example, adventive forb cover responded to increased heterogeneity under ambient snow cover, but this effect diminished with snow removal. Our results reveal that soil heterogeneity can play an important role in determining plant responses to changes in soil freezing stress resulting from global climate change. While the deliberate creation of soil microsites in ecological restoration projects as a land management practice could increase the frequency of microrefugia that mitigate plant community responses to increased freezing stress, the design of these microsites must be optimized, given that soil heterogeneity also has the potential to exacerbate freezing stress responses.     

Future ocean climate homogenizes communities across habitats through diversity loss and rise of generalist species

Predictions of the effects of global change on ecological communities are largely based on single habitats. Yet in nature, habitats are interconnected through the exchange of energy and organisms, and the responses of local communities may not extend to emerging community networks (i.e., metacommunities). Using large mesocosms and meiofauna communities as a model system, we investigated the interactive effects of ocean warming and acidification on the structure of marine metacommunities from three shallow‐water habitats: sandy soft‐bottoms, marine vegetation, and rocky reef substrates. Primary producers and detritus—key food sources for meiofauna—increased in biomass under the combined effect of temperature and acidification. The enhanced bottom‐up forcing boosted nematode densities but impoverished the functional and trophic diversity of nematode metacommunities. The combined climate stressors further homogenized meiofauna communities across habitats. Under present‐day conditions metacommunities were structured by habitat type, but under future conditions they showed an unstructured random pattern with fast‐growing generalist species dominating the communities of all habitats. Homogenization was likely driven by local species extinctions, reducing interspecific competition that otherwise could have prevented single species from dominating multiple niches. Our findings reveal that climate change may simplify metacommunity structure and prompt biodiversity loss, which may affect the biological organization and resilience of marine communities.     

近代城市发展下的传统历史园林在边界空间中的延续与转型

城市空间的生活状态与传统历史园林的体验之间呈现出一种异质状态,它发生于两者所处的物理边界中。以宁波中山公园独秀山以及杭州勾山樵舍为研究对象,在梳理两处园林从私人到公共空间演变历史资料的基础上,借助西方文化研究中的“异质”概念,来反思园林边界的空间潜力和价值,即历史记忆和在场体验的关系如何推动传统园林的阅读以及其空间意义的拓展。     

Clonal integration benefits invasive alien plants under water variability in a native community

Aims Many invasive alien plant species are clonal and can greatly propagate and spread through clonal integration (sharing resources between connected ramets) in heterogeneous and variable environments. Here, we tested whether water variability influences clonal integration of invasive alien plant species and consequently facilitates their growth and dominance in a native community.     

Single-Cell Transcriptomics Uncovers Glial Progenitor Diversity and Cell Fate Determinants during Development and Gliomagenesis

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