松花江流域沿江重点监控企业水环境潜在污染风险分析

为防控松花江流域水污染风险、优化流域内沿江产业带布局,分析了松花江流域沿江企业潜在污染风险的大小和分布,并揭示导致不同区域间水环境潜在污染风险空间差异的原因。基于《2012年废水国家重点监控企业名单》,本研究将沿松花江(到三级支流)1 km范围内的45家重点废水产生企业识别为松花江流域水环境潜在污染风险源。以沿江企业和重点区域的废水产生量与对应河段的水质状况表征水环境潜在污染风险源强弱与流域水体对潜在污染风险的缓冲能力,并以区域总人口数、第二产业产值及珍稀濒危物种分布情况反映流域社会-经济-自然复合生态系统对潜在污染风险的敏感程度开展评价。结果表明:牡丹江市辖区(牡丹江中游河段)因潜在污染风险源强、水体对潜在污染风险的缓冲能力低且自然生态系统对潜在污染风险的敏感程度高,是松花江流域受沿江企业产生的水环境潜在污染风险最严重的地区;长春市辖区(饮马河、伊通河部分河段)、伊春市辖区(汤旺河全部河段)与敦化市(海浪河全部河段、牡丹江部分河段)由于较低的水体缓冲能力和较高的生态系统敏感程度,应加强水环境潜在污染风险的防治;污染风险源强的吉林市辖区(西流松花江部分河段)与七台河市辖区(倭肯河部分河段),须提高本区域对潜在污染的风险管理能力以降低污染事故发生的可能性。最后,针对不同行业类型、区域潜在污染特点与水污染风险特征,从加快污水处理研究、评估污染治理经济手段、建立产业准入机制及完善污染防治立法等多方面提出流域水环境污染风险管控的相关建议。     

宁夏引黄灌区秸秆还田对麦田土壤硝态氮淋失的影响

以宁夏引黄灌区为例,探索秸秆还田条件下冬小麦土壤硝态氮淋失规律。试验设置常规施肥(CK)、常规施肥条件下施用4500kg/hm2(T1,半量还田)和9000 kg/hm2(T2,全量还田)秸秆3个处理。利用树脂芯法吸附10、20、30、60cm和90cm土层的硝态氮流失量。结果表明:硝态氮(纯N)淋失量6.26—12.85 kg/hm2,是冬小麦施用化肥氮量的2.78%—5.71%。与对照CK相比,T1和T2在10cm土层减少0.09%和3.97%;20cm土层减少8.51%和9.81%;30cm土层减少2.25%和10.34%;60cm土层减少23.85%和13.08%;90cm土层减少27.65%和20.73%。10cm和20cm土层,处理与对照以及处理之间均未到显著性差异(P0.05);30cm处理,T1与CK以及T1与T2未达到显著性差异,但T2与CK达到显著性差异表明全量还田效果最好;60cm土层,处理与对照、以及处理之间均达到显著性差异;90cm土层,处理与对照之间达到显著性差异,处理之间未达到显著性差异。硝态氮淋失主要发生在冬小麦返青至灌浆期间,占全生育期淋失量的52.95%—67.79%。T1、T2冬小麦产量增产率分别为10.11%与11.51%。可见,稻秆还田能够减少灌区土壤硝态氮淋失量。     

DNA barcoding of freshwater ichthyoplankton in the Neotropics as a tool for ecological monitoring

Quantifying and classifying ichthyoplankton is one of the most effective ways of monitoring the recruitment process in fishes. However, correctly identifying the fish based on morphological characters is extremely difficult, especially in the early stages of development. We examined ichthyoplankton from tributaries and reservoirs along the middle stretch of the Paranapanema River, one of the areas most impacted by hydroelectric projects in the Neotropics. Matching DNA sequences of the COI gene (628–648 bp) allowed us to identify 99.25% of 536 samples of eggs (293) and larvae (243) subjected to BOLD‐IDS similarity analysis with a species‐level threshold of 1.3%. The results revealed 37 species in 27 genera, 15 families and four orders, some 23.8% of documented fish species in the Paranapanema River. Molecular identification meant that we could include data from egg samples that accounted for about 30% of the species richness observed. The results in this study confirm the efficacy of DNA barcoding in identifying Neotropical ichthyoplankton and show how the data produced provide valuable information for preparing plans for conserving and managing inland waters.     

Evolutionary dynamics of ecological niche in three Rhinogobio fishes from the upper Yangtze River inferred from morphological traits

In the past decades, it has been debated whether ecological niche should be conserved among closely related species (phylogenetic niche conservatism, PNC) or largely divergent (traditional ecological niche theory and ecological speciation) and whether niche specialist and generalist might remain in equilibrium or niche generalist could not appear. In this study, we employed morphological traits to describe ecological niche and test whether different niche dimensions exhibit disparate evolutionary patterns. We conducted our analysis on three Rhinogobio fish species (R. typus, R. cylindricus, and R. ventralis) from the upper Yangtze River, China. Among the 32 measured morphological traits except body length, PCA extracted the first four principal components with their loading scores >1.000. To find the PNC among species, Mantel tests were conducted with the Euclidean distances calculated from the four principal components (representing different niche dimensions) against the pairwise distances calculated from mitochondrial cytochrome b sequence variations. The results showed that the second and the third niche dimension, both related to swimming ability and behavior, exhibited phylogenetic conservatism. Further comparison on niche breadth among these three species revealed that the fourth dimension of R. typus showed the greatest width, indicating that this dimension exhibited niche generalism. In conclusion, our results suggested that different niche dimensions could show different evolutionary dynamic patterns: they may exhibit PNC or not, and some dimensions may evolve generalism.     

湘江鳡仔稚鱼个体和耳石生长发育研究

2008 年6 月至7 月间于鳡(Elopichthys bambusa Richardson)的主要繁殖季节在湘江采集鳡仔稚鱼共370尾, 耳石分析表明这些仔稚鱼日龄在4-25d 间, 推算孵化日期为5 月27 日至6 月22 日。仔鱼前弯曲期向弯曲期转化时间为第6 日龄, 弯曲期向后弯曲期转化为第10 日龄, 后弯曲期向稚鱼期转化为15.5 日龄。体长生长和耳石生长均在进入后弯曲期后(12-13 日龄)出现1 个节点: 节点后体长生长速度是节点前的5 倍,节点后耳石生长速度是节点前的2 倍。早期生活史不同阶段鳡微耳石形态显著改变: 前弯曲期耳石为圆形;弯曲期耳石前后轴的生长速度明显超过背腹轴生长, 耳石也变为椭圆形; 后弯曲期耳石进一步延长, 耳石后端形成略尖的突起, 耳石呈梨形; 进入稚鱼期后, 耳石后突起变得较为平滑, 耳石形状呈贝形。耳石半径和体长的关系在后弯曲期阶段出现节点, 节点前后呈不同的直线关系。       

黑河中游荒漠绿洲过渡带土壤水分与植被空间变异

荒漠绿洲过渡带是绿洲生态系统的重要组成部分,对维持绿洲稳定具有重要作用。过渡带土壤湿度和植被之间的相互关系是了解荒漠绿洲过渡带的重要科学问题,从而开始受到重视。研究是在黑河中游荒漠绿洲过渡带,选择一条1700m×200m的样带（包括3条平行样线）,在对土壤湿度、植被高度、盖度等调查的基础上,应用统计分析和地统计的方法,研究了荒漠绿洲过渡带土壤水分和植被的空间变异性特征。结果表明：在荒漠绿洲过渡带上,0～200cm土层中土壤平均湿度介于1．45％～3．85％,变异系数在27．7％～83．2％;植被盖度介于9％～80％,变异系数为80％。植被盖度、冠幅与0～20、20～40cm两层土壤湿度显著负相关（p〈0．05）,与120～140、140～160cm两层土壤湿度显著正相关（p〈0．01）。土壤水分和植被空间分布在样带上存在明显的空间异质性,表现在小于100m的尺度上随机分布,而在100～3110m的尺度上呈聚集分布格局。     

黑河流域中游地区荒漠-绿洲景观区啮齿动物群落结构

2005年4–5月和9月对黑河流域中游地区荒漠-绿洲景观区不同生境中啮齿动物群落结构进行了研究。在甘肃省张掖市高台县黑泉乡选择流动沙丘、含砾沙漠、固定沙地、荒漠灌丛、防护林带、灌耕草地、灌耕农田和河岸草地等8种代表性生境,采用活捕法(4,800铗日)共捕获啮齿动物254只,隶属于3科8属9种。利用捕获记录计算了群落结构特征指数,进一步利用Pearson相关系数考察了不同生境啮齿动物群落的相似性,并在此基础上对不同生境的啮齿动物群落作了聚类分析。群落结构特征指数表明,啮齿动物物种多样性(用Shannon-Wiener指数测度)在灌耕草地中最低(0.6859),在固定沙地中最高(1.7036);物种均匀度(用Pielou均匀度指数测度)在流动沙丘中最低(0.6531),在河岸草地中最高(1.0000)。聚类分析结果显示,研究区啮齿动物群落可以分成荒漠型群落和绿洲型群落两大类。三趾跳鼠(Dipussagitta)在荒漠型生境中密度较高,总体上具有优势地位,尤其是在流动沙丘生境中占据绝对优势;黑线仓鼠(Cricetulusbarabensis)在植被较好的绿洲型生境中占据优势地位,但在流动沙丘外的其他荒漠型生境中也有发现。除五趾跳鼠(Allactagasibirica)外,其他种类的跳鼠只在荒漠型生境中发现。本次调查没有在防护林内部生境中捕获啮齿动物,但在林缘区域仍有捕获记录。啮齿动物群落物种多样性指数与捕获率间无显著关联(r=0.240,P=0.566)。本研究提示人为干扰可能对维持研究区域的啮齿动物多样性有积极意义。     

The significance of side-arm connectivity for carbon dynamics of the River Danube, Austria

1. Side‐arms connected to the main stem of the river are key areas for biogeochemical cycling in fluvial landscapes, exhibiting high rates of carbon processing. 2. This work focused on quantifying autochthonous and allochthonous carbon pools and, thereby, on comparing transport and transformation processes in a restored side‐arm system of the River Danube (Regelsbrunn). We established a carbon budget and quantified carbon processing from March to September 2003. In addition, data from previous studies during 1997 to 1999 were assessed. 3. Gross primary production (GPP) and community respiration were estimated by diel oxygen time curves and an oxygen mass balance. Plankton primary production was determined to estimate its contribution to GPP under different hydrological conditions. 4. Based on the degree of connectivity, three hydrological phases were differentiated. Most of the organic matter, dominated by allochthonous carbon, was transported in the main channel and through the side‐arm during floods, while at intermediate and low flows (and thus connectivity), transformation processes became more important and autochthonous carbon dominated the carbon pool. The side‐arm system functioned as a sink for particulate matter [total suspended solids and particulate organic carbon (POC)] and a source of dissolved organic carbon (DOC) and chlorophyll‐a. 5. Autochthonous primary production of 4.2 t C day^?1 in the side‐arm was equivalent to about 20% of the allochthonous inputs of 20 t C day^?1 (POC and DOC) entering the area at mean flow (1% of the discharge of the main channel). Pelagic photosynthesis was generally high at mean flow (1.3–3.8 g C m^?2 day^?1), and contributed up to 90% of system productivity. During long stagnant periods at low discharge, the side‐arm was controlled by biological processes and a shift from planktonic to benthic activity occurred (benthic primary production of 0.4–14 g C m^?2 day^?1). 6. The transformation of the organic matter that passes through the side‐arm under different hydrological conditions, points to the importance of these subsystems in contributing autochthonous carbon to the food web of the main channel.     

基于网络特征的道路生态干扰——以澜沧江流域为例

道路网络对区域景观的生态格局和过程产生较大的影响,作为干扰因子,区域道路网络的特征和所产生的生态干扰水平存在一定的相关性.利用GIS和网络分析法,以澜沧江流域县域为基本单元,分析了研究区各县的道路网络特征指数,在揭示了区域道路网络不同特征之间的规律性的基础上,进一步对区域网络特点和生态干扰之间相关性进行了内在关系的探讨.结果表明,澜沧江流域道路网络结构的空间差异很大,流域内各县的道路网络节点数、连接线数目、α环度、β线点率、γ连接度指数等网络特征因子也存在较大差异;道路密度和道路总长度与区域海拔高度呈现较明显的负相关关系;道路密度和区域道路的廊道密度呈现正相关关系,和区域道路的α指数、β指数和γ指数关系可以用倒数模型来拟合.缓冲区分析表明,耕地比例和道路密度线性相关关系显著,而其他类型相关性较差,但区域综合的人工干扰指数(Hd)(1980,2000)和道路网络的特征指数相关显著,而且不同时期的区域景观的斑块密度、平均斑块面积和区域道路网络特征之间也存在较强的相关性,即网络扩展使得区域生态系统受干扰强度增加,破碎化严重,但较短时期内的生态系统变化和道路网络特征之间相关性不显著.     

Effects of groundwater salinity on the characteristics of leaf photosynthesis and stem sap flow in Tamarix chinensis

AimsThe objective of this study was to investigate the change pattern of leaves photosynthesis and stem sap flow of Tamarix chinensisin under different groundwater salinity, which can be served as a theoretical basis and technical reference for cultivation and management of T. chinensis in shallow groundwater table around Yellow River Delta.MethodsThree-year-old T. chinensis, one of the dominated species in Yellow River Delta, was selected. Plants were treated by four different salinity concentrations of groundwater—fresh water (0 g∙L^-1), brackish water (3.0 g∙L^-1), saline water (8.0 g∙L^-1), and salt water (20.0 g∙L^-1) under 1.2 m groundwater level. Light response of photosynthesis and the diurnal courses of leaf transpiration rate, stem sap flux velocity and environment factors under different groundwater salinity were determined via LI-6400XT portable photosynthesis system and a Dynamax packaged stem sap flow gauge based on stem-heat balance method, respectively.Important findings The result showed that groundwater salinity had a significant impact on photosynthesis efficiency and water consumption capacity of T. chinensis by influencing the soil salt. The net photosynthetic rate (P_n), maximum P_n, transpiration rate, stomatal conductance, apparent quantum yield and dark respiration rate increased first and then decreased with increasing groundwater salinity, while the water use efficiency (WUE) continuously decreased. The mean P_n under fresh water, brackish water and salt water decreased by 44.1%, 15.1% and 62.6%, respectively, compared with that under saline water (25.90 µmol∙m^-2∙s^-1). The mean WUE under brackish water, saline water and salt water decreased by 25.0%, 29.2% and 41.7%, respectively, compared with that under fresh water (2.40 µmol∙mmol^-1). With the increase of groundwater salinity from brackish water to salt water, light saturation point of T. chinensisdecreased while the light compensation point increased, which lead to the decrease of light ecological amplitude and light use efficiency. Fresh water and brackish water treatment helped T. chinensis to use low or high level light, which could significantly improve the utilization rate of light energy. The decrease in P_n of T. chinensis was mainly due to non-stomatal limitation under treatment from saline water to fresh water, while the decrease in P_n of T. chinensis was due to stomatal limitation from saline water to salt water. With increasing groundwater salinity, stem sap flux velocity of T. chinensis increased firstly and then decreased, reached the maximum value under saline water. The mean stem sap flux velocity under fresh water, brackish water and salt water decreased by 61.8%, 13.1% and 41.9%, respectively, compared with that under saline water (16.96 g·h^-1). Tamarix chinensis had higher photosynthetic productivity under saline water treatment, and could attained high WUE under severe water deprivation by transpiration, which was suitable for the growth of T. chinensis.