植物地境及物种地境稳定层

植物地境是其生境的重要组成部分.地境结构的系统分析应作为探索植物与其地境生态关系的重要手段之一.植物地境具有鲜明的耗散结构特征, 内部的宏观稳定性和层次性是适应外界环境的自组织结果, 并与植物根群的“层片”结构相契合.每一“层片”代表一个特定的地下小环境.若地境具有多个“层片”, 说明该地境拥有可被多种植物利用的多样小环境.根群作为根系的主功能区, 是联系植物与地境的纽带.与植物的根系相比, 根群的“层片”现象更清晰.通过根群的“层片”, 不同植物实现资源分割, 避免过激竞争, 能够长期共存.基于地境耗散结构特征分析和各物种根群所处深度范围的统计结果, 首次建立了物种地境稳定层的概念.某一物种根群所处的位置即为该物种的地境稳定层.物种地境稳定层可作为地境生态功能分层的基本单位.较之地境全剖面各指标的平均值, 地境稳定层内理化指标组态更为真实地反映了植物生存的地下环境, 可用以确定物种的生存域; 不同植物的生理和生活习性是对其稳定层内指标组态量值及动态变化规律的一种响应; 地境所能提供的稳定层的多寡及组态对地表植物群落的结构具有一定的控制作用; 地境稳定层的消失和产生, 可导致对应物种的消亡和入侵, 造成植物群落的演替.      

九寨沟保护区植被景观变化与生境破碎化研究

根据1974、1994和2002年三个时段卫星影像,将土地覆盖类型划分为针叶林、针阔叶混交林、落叶阔叶林、灌丛、草地、裸地和水体7个类型。研究发现,九寨沟森林面积、特别是针叶林面积减少,各景观类型破碎化程度也在增大。与1974~1994年间森林丧失平均速率相比,1994~2002年间森林丧失速率明显放缓。第二期灌丛面积平均增长速率是第一期的3.5倍。随着生境破碎化的加剧,许多珍稀保护生物的前景变得难以预测,应以审慎的态度来对待所谓的“生态旅游”。     

Habitat selection and quality for multiple cohorts of young-of-the-year bluefish (Pomatomus saltatrix): Comparisons between estuarine and ocean beaches in southern New Jersey

In this study, seasonal and annual variability in the use of estuarine and ocean beaches by young-of-the-year bluefish, Pomatomus saltatrix, was evaluated by indices of abundance in coastal areas of southern New Jersey (1998–2000). Biological and physical factors measured at specific sites were correlated with bluefish abundance to determine the mechanisms underlying habitat selection. In addition, integrative and discrete indicators of bluefish growth were used to examine spatio-temporal dynamics in habitat quality and its effect on habitat selection by multiple cohorts of bluefish. Intra-annual recruitment to coastal areas of southern New Jersey was episodic, and resulted from the ingress of spring-spawned bluefish (hatch-date April) to estuarine beaches in late May to early June, followed by the recruitment of summer-spawned fish (hatch-date early July) to ocean beaches from July to October. Bluefish utilized estuarine and ocean beaches in a facultative manner that was responsive to dynamics in prey composition and temperature conditions. The recruitment and residency of bluefish in the estuary (1998–1999) and ocean beaches (1998), for example, was coincidental with the presence of the Atlantic silverside Menidia menidia and bay anchovy Anchoa mitchilli, the principal prey species for bluefish occupying these respective habitat-types. Bluefish abundance in the estuary (2000) and ocean beaches (1999–2000) was also correlated with water temperature, with the greatest catches of juveniles coinciding with their optimal growth temperature (24 °C). Bluefish growth, estimated as the slope of age–length relationships and daily specific growth rates, equaled 1.27–2.63 mm fork length (FL) d⁻¹ and 3.8–8.7% body length increase d⁻¹, respectively. The growth of sagittal otoliths was also used as a proxy for changes in bluefish size during and shortly before their time of capture. Accordingly, otolith growth rates of summer-spawned bluefish were greater at ocean beaches relative to the estuary and were explained by the more suitable temperature conditions found at ocean beaches during the mid- to late summer. Notwithstanding the fast growth of oceanic summer-spawned bluefish, individuals spawned in the spring were still larger in absolute body size at the end of the summer growing season (240 and 50–200 mm FL for spring- and summer-spawned bluefish, respectively). The size discrepancy between spring- and summer-spawned bluefish at the onset of autumn migrations and during overwintering periods may account for the differential recruitment success of the respective cohorts.     

南方鲇成鱼的静止代谢率的季节变化

于１９９１年９月－１９９２年７月，运用连续流水呼吸仪测定由嘉陵江捕获的南方鲇成鱼的静止代谢率，在１０．０，１６．０，２１．８，２２．２和２７．４℃条件下，雌鱼的测定值是８．６９９，２１．９８０，２５．４１２，３０．５６３，３４．４６３和３２．４８３Ｏ２ｍｇ／（ｋｇ．ｈ）；雄鱼的是８．１４，１９．５６８，２６，８３０，２９。４２６，３２，１５６和３２．０９８Ｏ２ｍｇ／（ｋｇ．ｈ）。采用统计模型，将测     

中国近海浮游介形类大尺度生态研究 Ⅴ.浮游介形类群落生境地理位置的季节性变迁

综合分析黑潮、南海暖流、黄海冷水团、对马暖流、闽浙沿岸流、粤东沿岸流、季风和径流对中国近海影响的季节性差异,从而导致中国近海浮游介形类的群落生境地理位置随之进行季节性的变迁。本文选择差异甚大的夏、冬两季进行分析。     

Prediction of the consumption rates for juvenile Atlantic salmon (Salmo salar L.) on the scale of habitat patches: Development of empirical models based on stomach contents

Rivers and streams are unstable environments in which estimation of energetic costs and benefits of habitat utilization are the daunting exercise. Empirical models of food consumption may be used to estimate energetic benefits based on abiotic and biotic conditions in patches of habitat. We performed thirty daily surveys of fish stomach contents to estimate the consumption rates for juvenile Atlantic salmon (Salmo salar) in a river. The data were used to assess whether variations of daily consumption rates existed within the river, and to develop empirical models that could predict fish consumption rates using abiotic and biotic conditions as independent variables. Daily consumption rates based on stomach content surveys in the field (range: 0.15–1.49 g dry/(100 g wet day)) varied significantly depending on habitat patch (500–1000 m²), summer period, and sampling year. Variables such as water temperature, numerical density of salmon, water depth and moon phase explained 83–93% of the variations in daily food consumption rates. Daily consumption rates tended to increase with water temperature and depth, and were also higher near a full moon. However, they tended to decrease with the numerical density of salmon. Our work suggests that empirical models based on independent variables that are relatively simple to estimate in the field may be developed to predict fish consumption rates in different habitat patches in a river.     

Use a Spatial Analysis Model to Assess Habitat Quality in Lashihai Watershed

Habitat quality assessments are of great significance for protecting biodiversity. This study analyzes the changing habitat quality of Lashihai watershed based on SPOT satellite images. We extracted the land use data for Lashihai watershed in Yunnan province for the years 2000 and 2015, and then used an InVEST model to evaluate habitat degradation, habitat quality and habitat scarcity in the study area from 2000 to 2015. Spatial statistical methods were used to determine changes to spatial dynamics. Results indicate that the number of areas with habitat degradation was generally small, and that both the number of areas with habitat degradation and the degree of degradation had fallen noticeably during the fifteen-year study period. In general, the quality of habitats was maintained or improved, while the quality of habitats decreased in only a few areas. The scarcity of habitats for cultivated land had increased, the tension between people and land use was relatively prominent. The reason habitat quality in Lashihai watershed has improved can be attributed to three factors: 1) The policy of returning farmland to forests since 2000 has been well implemented and has achieved remarkable results. Loss of forests from logging and deforestation has basically been eliminated, and great progress has been made restoring the ecological environment. 2) High background value of quality habitat suitability benefits from the research area’s high vegetation coverage. 3) The development of the local tourism economy has transformed the area’s ecological advantages into an economic bonus, greatly increasing the income level and living standards of residents. At the same time, the ecological resource bonus has increased the enthusiasm of residents for ecological protection and has helped to promote the protection of local eco-systems, both reducing ecological degradation and improving habitat quality. At the same time, increasing conflicts between land and people should be addressed. Support is needed to promote development of the ecological economy while continuously reducing ecological degradation and further increasing residents’ income. There must be less reliance on industry and less pressure on both land and people, all the while ensuring that the local economy and ecology can more forward together in a sustainable way.     

长沙都市区生境质量对城市扩张的时空响应

生境质量是评价生态环境的重要指标,掌握其对城市扩张的时空响应规律,有助于提升都市区城乡规划质量和生态管控的合理性。本文在运用InVEST模型对长沙都市区1995-2015年生境质量时空演化的基本特征进行分析的基础上,利用缓冲区由内向外逐层剖析,探讨长沙都市区近20年来城市扩张格局及其对生境质量的影响。结果表明：①长沙都市区建设用地面积从170.26 km²增至487.19 km²;三环线以内建设用地快速扩张,从三环线起向外扩张逐渐放缓;②生境质量中等及以上的区域占比从1995年的43.49%下降到2015年的27.22%,生境质量平均值则相应地从0.46下降到0.31,且退化最明显的区域从核心外围区(5-10号缓冲区)外移到三环线附近(10-15号缓冲区);③各圈层建设用地扩张强度与生境质量变化之间存在显著的空间负相关性,生境质量变化对城市扩张响应最强烈的区域始终位于核心外围区;④建设用地空间布局零散和几何形态不规则程度的增加加剧了生境质量的退化,并在三环线附近区域(10-15号缓冲区)表现最为明显,应成为未来长沙都市区城乡规划和生态管控的重点区域。     

基于不同权重的栖息地指数模型预报阿根廷滑柔鱼中心渔场

本文根据2003-2009年1-5月和2011年1-5月西南大西洋海域阿根廷滑柔鱼(Illex argentinus)的生产数据,结合遥感获得的海表面温度(SST)和海表面高度(SSH)数据,利用不同权重的栖息地指数模型来预报阿根廷滑柔鱼的中心渔场。采用外包络法,利用作业次数与SST、SSH建立适应性指数(SI)模型,依据作业次数比重和产量比重来比较不同权重的算术加权模型(AWM),从而筛选出最佳模型,并对最佳模型进行验证。结果显示,确定AWM(a=0.3,SST权重为0.3,SSH的权重为0.7)为最佳模型,当栖息地适应性指数(HSI)大于0.6时,作业次数的比重为93.23%,产量比重为89.28%,当HSI小于0.4时,作业次数的比重为2.12%,产量比重为3.35%。利用2011年1-5月的生产数据和环境数据对AWM(a=0.3)进行验证,结果显示,在HSI大于0.6的海域,各月作业次数比重均在91%以上,产量比重均在95%以上。研究表明,在阿根廷滑柔鱼渔场形成中SSH比SST更为重要,基于SST和SSH的AWM(a=0.3)能够较好地预测西南大西洋阿根廷滑柔鱼的中心渔场。