Assessing landform alterations induced by mountaintop mining

A comprehensive impact analysis of mountaintop removal and valley fill (MTR/VF) mining requires an understanding of landform alterations since ecological impacts are so intricately linked. In this study we investigated mining in the Coal River Watershed, West Virginia, USA, using landform terrain analysis. Previous studies have relied on elevation differencing of pre- and post-mining surfaces to assess absolute elevation and volumetric change. Our landscape analysis, utilizing light detection and ranging (LiDAR)-derived elevation data, indicated specific landform types and distributions that were significantly altered after MTR/VF mining and reclamation. The use of categorical landform data provides insights to assessing and understanding the extent of topographically altered mountaintops. Our study provides an opportunity to further examine the impact of MTR/VF on forest communities, terrestrial habitat, ecosystem health, and biodiversity.

Altitude as environmental filtering influencing phylogenetic diversity and species richness of plants in tropical mountains

Elucidating how multiple factors affect biodiversity and plant community assembly is a central issue in ecology,especially in vulnerable ecosystems such as tropical mountains.These studies are more relevant in global warming scenarios that induce the upward displacement of plant species towards reduced habitats and hostile environments in tropical mountains.This study aimed to analyze how altitude affects taxonomic and phylogenetic diversity in plant communities of tropical mountains.Thus,we tested if(i)increased altitude works as an environmental filtering promoting decreased species richness,decreased phylogenetic diversity,and increased phylogenetic clustering in these tropical mountains;and if(ii)plant communities of high altitude in tropical mountains are also result of recent diversification with plant species recently split shortening phylogenetic distances between closest related species.We tested effects of altitude on species richness and phylogenetic metrics using linear mixed-effects models.Mount Haleakala presented 114 species,Mount Kilimanjaro presented 231 species and Mount Purace presented 280 species.We found an environmental filtering effect with increasing altitude causing phylogenetic clustering,decreased phylogenetic diversity and decreased species richness.The decreasing phylogenetic distances between closest relatives are congruent with neo-endemics,suggesting recent plant diversification in high altitudes of tropical mountains,possibly driven by geographic isolation and environmental heterogeneity.Consequences of global warming should be monitored in tropical mountains focusing on distribution shifts.

Complexity responses of Rhododendron species to climate change in China reveal their urgent need for protection

Global climate change has been widely recognized as important factors that threaten biodiversity.Rhododendron species are not only famous woody ornamental plants worldwide but are also indispensable components in alpine and subalpine vegetation in southwest China.However,the geographical distribution ranges response of this broad taxonomic group to future climate change remains not be fully understood.Herein,we studied the impact of climate change on the distribution of Rhododendron species in China by predicting the changes in their suitable habitats,centroid,and species richness under three climate change scenarios(SSP1-2.6,SSP2-4.5 and SSP5-8.5)in the 2090s.The species richness changes of Rhododendrons along altitude were also evaluated.In addition,we calculated the phylogenetic signals of distribution response to climate change.We found that the distribution responses of Rhododendron to climate change have weak phylogenetic signals.In the 2090s,the suitable habitats of about 87%of Rhododendron species will be reduced,77%of Rhododendron species are manifested as northward migration.The high species richness of Rhododendrons tends to migrate to transboundary areas with high altitudes in China.Some Rhododendron species with no concern previously should be taken seriously for their high risk of habitat loss under climate change.Thus,the urgent protection of Rhododendron species under climate change need to be paid more attention than previous acknowledged.We recommend carrying out the reintroduction of endangered species in future suitable habitat,strengthening the protection of transboundary areas with high species richness,and focusing on species with few concerns previously.

湖南阳明山山顶矮林群落结构及其与土壤因子的相关性

[目的]了解湖南阳明山山顶矮林的群落结构及土壤环境状况。[方法]对湖南阳明山的山顶矮林进行野外调查,并对生境土壤进行测定。[结果]阳明山山顶矮林样地内共记录到37科51属68种植物,杜鹃花科杜鹃花属植物是乔木层和灌木层的优势植物,而乔木层的云锦杜鹃(Rhododendron fortunei)在数量、高度及重要值上占据绝对优势地位,呈单优种群落结构特征。乔木层、灌木层和草本层各科重要值与土壤有机质(OM)、全氮(TN)具有显著相关性(P<0.05)。[结论]湖南阳明山山顶矮林是亚热带山地常绿阔叶林在山顶特殊生境下长期发育形成的特殊群落变型,具有单优种群落的结构特征;其中,土壤因子对亚热带山顶植被的发育具有重要意义。

基于实测数据的STAP的权值计算算法性能比较

空时自适应处理(STAP)的权值求解是其计算最密集的部分,由于机载雷达回波数据动态范围很大,导致传统的采样协方差矩阵求逆(SMI)方法数值稳定性较差,相对而言基于QR分解的采样矩阵求逆算法(QRD-SMI)在系统动态范围要求和并行性上具有优势。为了寻求在STAP工程实现时采用QRD-SMI的理论依据,分析了采用这两种不同算法的STAP处理方法,比较了二者的计算量,用MountainTop数据比较研究了2种方法的性能。实验结果表明这2种方法均具有良好的杂波、干扰抑制性能,传统的SMI算法在杂波抑制性能上较QRD-SMI算法有一定的优势,而QRD-SMI算法对"目标消除效应"较SMI算法有更强的稳健性,综合比较算法性能、数值特性以及可并行实现性,QRD-SMI更适合在STAP的工程实现时采用。

广东石门台自然保护区山顶矮林优势种群分布格局及动态

运用方差/均值比率法、χ2检验、负二项参数及聚集强度的一些指数研究了山顶矮林优势种群的分布格局和动态,采用大小级代替年龄级分析,发现疏齿木荷、五列木、红锥、木荷和密花树均呈集群分布,其聚集强度由高到低依次为密花树、疏齿木荷、木荷、红锥和五列木。格局动态分析表明,幼苗至幼树,五列木、木荷、密花树、红锥和疏齿木荷均呈集群分布,密花树种群表现为聚集,而其它种群均呈扩散趋势;五列木、木荷和密花树的大树缺失,五列木和木荷的小树和中树均呈集群分布,密花树的小树呈集群分布,中树呈均匀分布;红锥的小树、中树和大树均呈集群分布,种群呈聚集趋势;而疏齿木荷的小树、中树均呈集群分布,大树呈随机分布。

利用低仰角扫描改进高山雷达低层回波探测能力浅析

应用昆明高山新一代天气雷达探测大范围暴雨个例的0°仰角资料,与我国高山雷达目前采用最低仰角为0.5°扫描模式(VCP11或VCP21)的回波分布情况进行了对比分析。结果表明:在雷达警戒区域,0°较0.5°仰角能更早地发现过程的降水云系;0°或负仰角能明显提高高山雷达远距离回波探测效果;低仰角(文中指低于0.5°仰角)可弥补常规业务扫描模式下高山雷达探测低层回波能力不足的问题。对另一次文山雷达对冰雹过程的探测分析,可见低仰角扫描模式对强对流天气也能获得较好的低层探测效果。又通过实验获得云南另外4部高山雷达的0°仰角及负仰角晴空资料,分析了高山雷达晴空资料的0°及负仰角低层回波资料质量。发现受周围山脉影响,不同高山雷达最佳探测低仰角是不同的,实际业务工作中应根据当地地形的具体情况选取恰当的低仰角。

湖南省阳明山山顶苔藓矮林优势种空间分布格局

山顶苔藓矮林是亚热带山地常绿阔叶林区在极端气候与环境条件下发育的一种群落变型,通过研究优势植物的分布格局与规模,可以有效地指导植被保护与管理活动。在湖南阳明山国家级自然保护区的山顶苔藓矮林区设置 3 个样地,应用相邻格子法对优势种云锦杜鹃(Rhododendron fortunei)进行每木调查,在不同取样尺度(面积)上采用方差/均值比率法(v/m)、负二项参数(k)、丛生指数(I)、平均拥挤度(m^*)、聚块性指数(m^*/m)、聚集指数(Ca)和格林指数(GI)等聚集强度指数对云锦杜鹃种a群分布格局进行分析。结果表明:阳明山山顶苔藓矮林优势种云锦杜鹃种群在北、南、东三个方位上的空间分布格局总体上为聚集分布,随着取样尺度的增大,聚集格局强度和规模依次减弱;而山顶苔藓矮林优势种群不同年龄阶段的空间分布特征为随着种群年龄的增大,其空间分布格局呈聚集强向聚集弱、以至于向随机分布发展;阳明山山顶苔藓矮林优势种群及其分布格局形成的主要原因是云锦杜鹃种群本身的种子繁殖及传播方式和类营养繁殖等生物学特性及方位、坡向等环境因子影响所致。

“上阔下竹”模式对毛竹林林地土壤及毛竹林生长的影响

为实现毛竹林的可持续发展,提出"上阔下竹"的复合经营模式,为验证该模式的有效性,在永安市铁丁石村,选取同一山脊上经营措施基本相同的四个坡面。按混交比例的大小依次标记为类型Ⅰ(混交比例32%,)、类型Ⅱ(混交比例28%)、类型Ⅲ(混交比例为25%)、类型Ⅳ(混交比例0%),研究"上阔下竹"模式对毛竹林林地土壤及毛竹生长的影响。结果表明:4种类型中,毛竹(Phyllostachys pubescens)林土壤全氮、全磷、全钾含量无显著差异;各类型上位阔叶林土壤水解氮、有效磷、速效钾含量低于其下位毛竹林;各类型毛竹林相同坡位土壤水解氮、有效磷、速效钾含量无显著差异;不同混交模式中,以混交比例为28%时,山体各部位毛竹林平均胸径最大,较其余混交模式竹林平均胸径可提高5%~12%。

论山顶炸药贮存库的外部防雷

山顶炸药贮存库因其所处的自然环境,受雷击的可能性较大。针对炸药库自身特点以及山顶环境,选择了适合的避雷方式,并对炸药库年预计雷击次数作了计算。介绍了炸药贮存库的防雷级别,详细分析了接闪器和接地体的布置。最后介绍了防雷接地电阻检测仪的使用。

富尔河林区山帽材采伐与集材方式的选择

本文针对富尔河林区山帽材的特点和林分结构 。

温州全重力山顶式水厂供水工程设计案例

为解决温州市西部片区工业园、街道、乡镇供水问题,实现城乡供水一体化,在鹿城区藤桥镇石鼓山山顶建设净水厂。经削山处理后,山顶大小与水厂用地相适宜,山顶高程与供水系统水头配置相吻合,与泽雅水库取水口形成21 m高差,再利用水厂自身高度输配水,实现进水和出水均采用重力自流节能的运行方式,大大降低了工程建设和供水生产成本。净水厂建设规模为20×10^(4)m^(3)/d,一期工程规模为10×10^(4)m^(3)/d,采用强化常规处理工艺,单体构筑物采用一体化设计,节约用地;配套建设DN1200原水管5.43 km、DN1000输水管2.35 km以及相应配水管道16.13 km,并设计几字形上山道路保证交通;配水系统中,通过建设长1.6 km、尺寸为2.60 m×2.85 m的拱顶隧洞,铺设输水管道实现仰义、双屿联网供水。一期工程已稳定运营2.5年,出水水质优于《生活饮用水卫生标准》(GB 5749—2006)。

湖南省阳明山山顶苔藓矮林物种组成与多样性的十年动态

于2005年在湖南省阳明山国家级自然保护区的阳明山山顶苔藓矮林聚集区建立了3块样地,从物种数量特征、物种重要值、径级结构、高度结构和物种多样性等方面分析了2005—2016年苔藓矮林物种组成和多样性的变化.结果表明:从2005年到2016年,样地内乔木层植物基径(DGH)≥1.0 cm的个体数量减少了30.9%,其中减少率最大的物种为荚蒾,达到98.6%,减少率最小的物种是云锦杜鹃,为1.8%.样地内的物种数有所上升,但均匀度下降.除云锦杜鹃重要值增加外,其余各物种的重要值在10年后均大幅下降,云锦杜鹃为山顶苔藓矮林的优势种.矮林内物种的径级分布以1 cm等级排列,整个矮林的物种表现为小径木(1 cm≤DGH<6 cm)个体数量多,而中径木(6 cm≤DGH<15 cm)和大径木(15 cm≤DGH)个体数量少的特点.云锦杜鹃的径级结构呈倒"J"型,群落高度增高,表现出稳定和发展良好的趋势;而其他物种更新不良,径级结构不规律.整体上,样地Patrick和Menhinick物种丰富度指数和Simpson指数上升,Shannon指数和Pielou指数下降.