植被在大气汞收支中作用的研究进展与展望

在汞的生物地球化学循环中,对于"源"和"汇"的认识还存在许多不确定性。大气汞收支不平衡的问题使得植被在汞循环中的作用日益凸现;开展植被在大气汞收支中作用的研究有助于为全球汞减排政策的制定提供参考。本文首先概述了植被中汞的来源和影响因素及其与大气汞的源汇关系;进而重点论述了植被参与大气汞收支的主要方式:凋落物沉降、生物质燃烧和植被表面与大气汞的动态交换,并阐述了植被在大气汞污染监测中的应用;最后在总结我国相关研究的基础上展望了未来的发展方向。     

植被对厂房自然通风影响的数值模拟研究

通过对动量方程、能量方程等加源项的方法实现了对三维植物冠层湍流流动下厂房自然通风的数值模拟。计算结果和实测数据在下垫面温度以及叶面温度方面吻合较好,能充分反映实际的温度分布趋势。表明模拟体系对于有绿化情况下建筑自然通风各项参数的描述是准确的,可较好地预测不同植被配置下,建筑自然通风温度、速度等物理量的分布情况。同时,利用有效吹风温度差的分布分析了厂房内人员的热感觉情况。     

北部湾沿海地区植被覆盖对气温和降水的旬响应特征

论文分析北部湾沿海地区植被覆盖对气候变化的响应,为该区域植被恢复和植被生产力研究提供依据.基于研究区2000--2011年423景SPOT-VEGETATION逐旬NDVI数据及逐日气温和降水数据,利用像元二分模型,相关分析,偏相关分析和时滞偏相关分析等数理统计方法,对研究区植被覆盖时空变化特征及与旬降水和旬均温的相关性及滞后性进行分析.结果表明:1)近12 a来,北部湾沿海地区植被覆盖度平均值呈增长趋势,由2000年的65.23%增加到2011年的72.02%,增加了6.79%;2)研究区植被生长季旬NDVI均值介于0.21~0.67之间,在不同时期变化是不同的,其值呈现出"降低--增长--降低"3种变化过程;3)各种植被类型与温度具有显著的相关关系,全部通过了0.01的显著性水平,且NDVI与温度的显著性水平高于NDVI与降水的显著性水平,说明北部湾沿海地区植被覆盖NDVI对气象因子中的温度更为敏感;4)NDVI与气温的时滞偏相关系数显著高于NDVI与降水的时滞偏相关系数,旬NDVI与旬降水的滞后时间多集中于6~9旬之间,而旬NDVI与旬气温的滞后时间多以0~5旬为主;5)不同类型植被的生长对气温和降水的响应时间不一致,但与水热条件时滞偏相关系数越高的植被类型响应时间越短.上述研究结果表明,近12 a来北部湾沿海地区植被处于恢复状态,且植被对降水和气温具有明显的阈值和滞后性.     

1980—2015年青藏高原植被变化研究

青藏高原地形复杂,气候类型独特,是北半球气候变化的调节器。全球气候变化直接影响植被变化,探讨植被变化对了解青藏高原的环境状况及环境保护与恢复具有重要意义。选取青藏高原作为研究区域,基于1980年和2015年的1 km土地利用数据利用转移矩阵研究植被的转换变化,利用1981—2015年的GIMMS-NDVI数据借助趋势分析法分析土地利用未变化区域的植被覆被变化,并通过相关分析法研究植被变化与气候因子的关系。研究表明:1980—2015年,青藏高原植被的转换变化表现为转入面积大于转出面积,植被面积整体增加。植被类型变化的主要表现形式为农作物和草地面积增加,乔木林地和灌木林面积减少;草地的面积变化最大,农作物、乔木林地和灌木林面积变化很小。从不同植被类型和生态分区来看,植被覆被变化表现为农作物面积较小,分布于半干旱地区,NDVI呈上升趋势;乔木林地位于东南部湿润半湿润地区,生长状况呈现退化趋势;灌木林位于东部边缘和东南部的湿润半湿润和半干旱地区,呈退化趋势;草地分布范围最大,生长情况趋于改善。近35年来,青藏高原的植被覆盖整体趋于好转,低覆盖度、干旱半干旱地区趋于改善,高覆盖度、湿润半湿润地区出现退化。研究时段内,青藏高原趋于暖湿化,NDVI变化与年平均气温、年降水量变化呈正相关,对降水变化更为敏感。不同植被类型对气候变化响应不同,农作物相关系数最高。乔木林地与气温和降水变化呈负相关,农作物和草地则呈正相关,灌木林与降水变化呈正相关,与气温变化呈负相关。     

浅水湖泊孢粉和植物残体对水生植被的表现率

研究浅水湖泊中植物残体对水生植物的表现率,用于重建近代水生植被历史,可为治理湖泊富营养化,恢复湖泊生态环境提供依据。研究选址为英国北部的一个小湖泊,通过水生植物调查及表层沉积物中植物残体和孢粉分析,及地理信息系统方法定量研究植物残体对水生植物的表现率。结果表明：沉积物中植物残体精确地反映了植物优势种的存在;植物和植物残体的关系是很复杂的,有些植物在残体中表现率明显超高,而有些表现率偏低; 应把叶子和其它非繁殖植株部分作为恢复近代多年生植物历史依据;植物残体传输性较差,主要集中在植物母体附近;利用植物残体与孢粉分析相结合的方法能更准确地重建植被历史。     

基于ASD和FISS的植被叶片氮素含量反演研究

地面成像光谱系统能够在更为微观的尺度上满足多元化应用需求,实现对植物群体、单个植株的快速精细探测,获取精细的植被生理参量的空间信息,从而弥补大尺度远距离遥感难以发挥作用的领域。本文采用ASD地物光谱仪和新型地面成像光谱系统FISS,以大豆叶片为研究对象,获取大豆叶片ASD光谱及FISS成像光谱数据,探讨大豆植株叶片的图像特征、反射率光谱、导数光谱、光谱指数等光谱特征变量与叶片氮素含量的相关性,建立植株叶片氮素含量的估算模型。研究结果表明：FISS地面成像光谱仪和ASD地面非成像光谱仪对氮素具有敏感指示的波段区间一致,480~520 nm和680~720 nm区间的波段范围与氮素含量具有较高的相关性;导数光谱特征所得精度要比原始光谱特征所得精度高,说明导数光谱对氮素含量的指示更为敏感,可以更加有效地提取氮素含量信息;反演模型对氮素含量反演精度的影响低于光谱特征对精度的影响。研究表明FISS数据由于其独特的测量方式和图谱合一的特点,可以更加准确地用于植被氮素含量的反演,实现植被叶片氮素含量的快速实时无损监测及图像可视化表达。     

宁夏盐池四儿滩湿地-干草原植被群落稳定性研究

以宁夏盐池县四儿滩湿地-干草原为研究对象,根据四儿滩湿地植被特征,将其由湿地中心向外依次划分为湿生带、交错带、旱生带。通过2012年7—9月份的野外调查,利用改进的M.Godron稳定性测定方法,研究其植被群落的稳定性。结果表明：（1）3条样地带的植被群落稳定性交点坐标分别为(18.39,81.61)、(24.75,75.25)、(22.85,77.15),即湿生带植被群落稳定性最高(欧氏平方距离为5.1802),旱生带次之（欧氏平方距离为16.2677）,可见水分对植被群落稳定性有着正相关作用;而由于交错带位于湿生带和旱生带之间,同时湿地面积不断缩减,因而交错带处于不断演替的阶段,其植被群落稳定性最低。（2）3条样带的植被种类数量表现为,交错带数量最多（23种）,旱生带次之（21种）,湿生带的种类最少（12种）,主要与旱生带土壤含水量低,湿生带土壤盐碱化严重的现象密切相关,而交错带由于处于旱生带和湿生带之间,同时具备了土壤含水量适中,土壤盐碱化较弱的优点,故植被种类最多。整体上,四儿滩湿地植被群落趋于稳定,且植被种类较多。这与近年来盐池县实施的草场封育措施密切相关,大大降低了放牧对湿地植被的破坏,利于植被生长和恢复。此外,今年雨水较往年多,很大程度地提高了干旱半干旱区植被的覆盖率和多样性,提高其稳定性。     

Observations on metal trends in soil and vegetation samples collected in the vicinity of a hazardous waste incinerator under construction (1996–1998)

The temporal variation in metal concentrations in soil and vegetation samples collected in an area of Catalonia (Spain), which will be under the potential influence of a new hazardous waste incinerator was determined. In 1996 and again in 1998, As, Be, Cd, Cr, Hg, Mn, Ni, Pb, Sn, Tl and V were measured in 40 soil and 40 herbage samples collected at 250–4000 m from the facility at the same sampling points. Data of both surveys and the percentages of variation are here presented for all metals. Results are shown according to the main wind directions in the area, as well as distances from the new facility. During the period 1996–1998, a general decrease was noted for most metals. Only the levels of Hg were significantly increased during this period. The present results will be useful for future surveys aimed to evaluate the environmental impact of metals derived from emissions of the new plant.     

Effects of drainage water on plant diversity and distribution of agricultural drainage ditch beds in an arid irrigated area of Northwestern China

Agricultural drainage ditches are essential to sustaining food production in arid irrigation regions, with various sizes and drainage characteristics as important buffer ecotones in agricultural areas. Bed vegetation and water properties were investigated in 39 agricultural drainage ditches in the Lingwu District of Ningxia Yellow River Irrigation Area in Northwestern China. The results showed that water depth, width, and velocity generally increased with larger ditch size. Water salinity was higher in drainage ditches (>1?g/L) than in croplands, canals, and the Yellow River. Total nitrogen and total phosphorus were at high levels: ～1.6 and ～0.1?mg/L, respectively. Forty plant species belonging to 19 families and 31 genera were identified, with higher plant richness and diversity found in smaller sized drainage ditches. Macrophytes dominated the bed vegetation with a mean vegetative coverage of >30% in all-sized ditches, and Phragmites australis occurred with the most frequency. Water depth and salinity were considered as the primary factors affecting the distribution of vegetation in drainage ditch beds. The study suggests that practical conservation of smaller sized drainage ditches is conducive to increasing the plant diversity of agricultural landscapes.     

Effects of vegetation cover, presence of a native ant species, and human disturbance on colonization by Argentine ants

The spread of non-native invasive species is affected by human activity, vegetation cover, weather, and interaction with native species. We analyzed data from a 17-year study of the distribution of the non-native Argentine ant (Linepithema humile) and the native winter ant (Prenolepis imparis) in a preserve in northern California (U.S.A.). We conducted logistic regressions and used model selection to determine whether the following variables were associated with changes in the distribution of each species: presence of conspecifics at neighboring sites, distance to development (e.g., roads, buildings, and landscaped areas), proportion of vegetation cover taller than 0.75 m, elevation, distance to water, presence of both species at a site, temperature, and rainfall. Argentine ants colonized unoccupied sites from neighboring sites, but the probability of appearance and persistence decreased as distance to development, vegetation cover, and elevation increased. Winter ants appeared and persisted in sites with relatively high vegetation cover (i.e., highly shaded sites). Presence of the 2 species was negatively associated in sites with high vegetation cover (more winter ants) and sites near development (more Argentine ants). Probability of colonization of Argentine ants decreased where winter ants were most persistent. At sites near development within the preserve, abundant Argentine ant populations may be excluding winter ants. The high abundance of Argentine ants at these sites may be due to immigration from suburban areas outside the preserve, which are high-quality habitat for Argentine ants. In the interior of the preserve, distance from development, low-quality habitat, and interaction with winter ants may in combination exclude Argentine ants. Interactions among the variables we examined were associated with low probabilities of Argentine ant colonization in the preserve.