荷木整树蒸腾对干湿季土壤水分的水力响应

降雨在时间上的非均匀分配导致森林土壤含水量呈现明显的干、湿季变化,并可能在干季形成水分胁迫,引起植物蒸腾变化。在监测环境因子的同时,利用Granier热消散探针连续监测荷木(Schima superba)的树干液流,以液流密度值计算整树蒸腾,并结合水力导度与叶片/土壤的水势差,探讨环境因子和水力导度对荷木整树蒸腾的协同控制。结果表明,华南地区的季节性降雨形成的干、湿季并未引起荷木蒸腾在季节上的显著差异,但对产生蒸腾的水力生理产生了显著影响。荷木蒸腾在干、湿季均与主要驱动环境因子(光合有效辐射PAR和水汽压亏缺VPD)呈显著正相关。在水热充足的湿季,荷木蒸腾主要受气孔导度调节;在干季,当空气水汽压亏缺达2.132 MPa时,水力导度与气孔导度协同控制蒸腾。整树水力导度对整树蒸腾的水力补偿出现在15:00—17:00,平均补偿值为0.08 g/s。利用蒸腾的估测值与实测值之间的差值量化荷木的水力补偿效应,是对水力导度与气孔导度协同控制树木蒸腾机理的深入探索。研究结果对于掌握季节性降雨不均背景下华南地区主要造林树种需水和耗水规律,有效发挥森林保水功能具有重要意义。     

基于树干液流和土壤-叶片水势梯度分析荷木干湿季整树水分利用特征

运用Granier热消散探针连续监测荷木的树干液流,于2009年的湿季(8月)和干季(11月)选择天气晴朗的3d测定叶片水势,同步连续监测林冠上方光合有效辐射、土壤含水量、气温和空气相对湿度.结果表明:干湿季下荷木树干液流存在显著差异,此外,土壤水势和液流有较好的相关性,且干季时的相关性更好;荷木的叶面积/边材面积比值平均为(0.416±0.033)m2·cm-2,并与树高呈指数函数下降关系;随着11月土壤水势下降,荷木的整树水力导度和午间叶片水势也有所下降,但不明显;对叶片水势和整树蒸腾进行回归分析,二者之间呈二次多项式关系(P＜0.01),叶片水势并非无限制下降;结果还表明,大气水汽压亏缺(D)和叶片水势呈负相关,这是否空气温度和相对湿度或共同作用影响叶片水势,需要进一步研究.     

成熟马占相思水力导度对水分利用和光合响应的季节性差异

通过测定成熟马占相思叶片的水势、气孔导度、蒸腾速率(Tr)、叶面积指数、边材面积等参数,研究了湿季(5月)和干季(11月)叶片的水力导度(K1)、水分和光合特性的关系.结果表明:高大植株(平均树高20 m、胸径0.26 m)的边材面积与叶面积的比率(Asp/Acl)比较小植株(平均树高14.5 m、胸径0.19m)高8.5％,前者的木质部水分通量大于后者,以支持冠层叶片的水分利用.对木质部易损曲线进行分析,K1降低50％时,湿、干季的叶片水势(Ψ1)分别为-1.41和-1.55 MPa,且干季的木质部空穴化的易损性高于湿季.湿、干季的K1峰值分别为5.5和4.5 mmol·m-2·s-1·MPa-1,最大蒸腾速率(Trmax)分别为3.6和1.8 mmol·m-2·s-1,且湿季的K1和Trmax明显大于干季.一天中K1和Tr的多次波动反映了木质部空穴化和修复的往复循环,叶片气孔在K降低超过50％或Ψ1达到-1.6MPa时关闭,气孔导度在K1达到50％前仍保持较高水平.干季的水力导度与光合速率的相关性较湿季明显.季节更迭导致叶片水力导度损失是Tr和CO2交换下降的原因.     

不同径级马占相思(Acacia mangium)整树蒸腾的湿、干季变化

利用Granier树干液流测定系统对广东鹤山丘陵地马占相思(Acacia mangium)林进行长期监测,并同步监测环境因子(空气温度、相对湿度、光合有效辐射、土壤体积含水量),选择胸径具有代表性的样树,结合马占相思的形态学参数,计算马占相思的整树蒸腾.通过对光合有效辐射(PAR)分级,建立不同辐射强度等级的湿季(土壤水分θ≥33%)整树蒸腾与水汽压亏缺(VPD)的相关方程,以干季(θ≤24%)的VPD代入对应PAR等级的湿季的拟合方程,求出干季的潜在蒸腾,以潜在蒸腾和干季实际蒸腾之差分析不同径级整树蒸腾在不同季节的实际变化.在所有的PAR分级内,干季整树蒸腾显著低于湿季,仅占湿季蒸腾的10%～20%,就蒸腾减少的绝对量而言,优势木>中间木>劣势木.土壤水分下降缩小了不同径级树木之间液流密度的差异,土壤水分亏缺限制了树木的蒸腾,对马占相思的生长造成一定程度的水分胁迫.     

华南荷木林冠层气孔导度对水汽压亏缺的响应

冠层气孔导度(Gs)是量化气孔在冠层尺度水平上表现的参数,能够表征森林冠层表面水汽和能量交换的动态.本研究利用Granier树干液流测定系统,连续监测华南地区荷木林的树干液流,通过尺度转换和扩展获得冠层蒸腾速率,结合微气象观测值,以Pen-man-Monteith公式计算了Gs,并比较不同土壤水分条件下Gs对水汽压亏缺的响应.结果显示,Gs与气孔气体交换方法实测的叶片气孔导度(gs)日变化相似,单位转换数值大小与实测gs数量级一致.Gs对水汽压亏缺的响应在干季和湿季有明显差别:(1)在土壤水分充足的湿季(土壤含水量θ ＞33％),Gs对水汽压亏缺的响应更敏感(偏相关系数-0.316),而在干季(θ＜23％)则对光合有效辐射的响应更敏感(偏相关系数0.885).(2)荷木林冠层-大气脱耦联系数(Ω)在湿季接近l,干季则较湿季小,说明湿季叶片的界面层较厚,水汽压亏缺对Gs影响较小,而光合有效辐射是控制Gs的主要环境因子.     

荷木人工林蒸腾与冠层气孔导度特征及对环境因子的响应

为了解荷木人工林水分利用特征及与环境因子的关系,利用Granier热消散探针于2007年12月(干季)和2008年9月(湿季)对荷木(Schima superba)人工林的15株样树树干液流进行测定并结合环境因子,计算林段总蒸腾(Jd)和冠层气孔导度(gs)。结果表明:边材面积(As)越大的径级对林段总蒸腾量的贡献越大。Jd干湿季差异显著,9月和12月平均分别为21.1 g H2O s-1和7.03 g H2O s-1,显示了明显的季节变化。环境因子与Jd呈极显著相关性,相关系数依次为:光合有效辐射(PAR)水汽压亏缺(VPD)空气相对湿度气温。gs在9月和12月的最大值分别为30.8 mmol m-2s-1和19.7 mmol m-2s-1;gs与PAR呈线性正相关;当PAR1000μmol m-2s-1且VPD2kPa时,gs与VPD呈线性负相关;偏相关分析表明土壤含水量与gs没有显著的相关性,显示所研究时间内土壤水分状况对荷木人工林蒸腾没有显著影响。     

亚热带森林演替树种叶片气孔导度对环境水分的水力响应

利用LI-1600稳态气孔计和PMS压力室,在田间测定了群落演替早期强阳生性树种桃金娘(Rhodomyrtus tomentosa)和三叉苦(Evodia lepta)、偏中性的阳生性树种荷木(Schima superba)、群落演替后期的耐荫树种鸭脚木(Schefllera octophylla)和九节(Psychotrie rubra)的叶片气孔导度(gs)和叶片水势(ΨL),研究不同演替阶段树种的气孔导度对环境水分的响应.结果表明,早上叶片有较高的ΨL,随着时间推移ΨL逐渐降低,与此同时比叶水力导度(KL)随ΨL降低而下降,桃金娘、三叉苦、荷木、鸭脚木和九节水力导度初始最低值时的ΨL分别为-1.6、-1.42、-1.30、-0.9MPa和-1.05MPa.随着ΨL降低,田间测定的gs开始从上午的较低值上升至约中午时的最大值,随后开始降低,此时的ΨL分别为-1.58、-1.52、-1.35、-1.02MPa和-1.0MPa.不同植物种类有不同的KL初始最低值的ΨL和gs达到最大值的ΨL.但不论何种供试树种,KL最低值时的ΨL与gs开始从最大值下降时的ΨL相近;显示KL与gs在动态变化中存在协调关系.树种间的gs和KL对ΨL的不同响应显示桃金娘和三叉苦的KL最低值时和gs开始下降时的ΨL均较鸭脚木和九节对应的ΨL低(p<0.05),意味着演替早期树种能在较强水分胁迫下保持较高的气孔导度.这一水力特性保证树种在水分胁迫下维持叶片的光合速率,有利于其在群落中的生长和优势地位的维护,而演替后期树种在较高ΨL下气孔关闭,降低了光合速率.全球变暖和环境进一步干旱可能成为限制亚热带森林植物群落的正向演替进程的潜在因素之一.     

不同树高对荷木液流密度、整树蒸腾量和时滞的效应

人工林面积不断增大,这不仅能解决由于森林砍伐引起的一系列社会问题,而且还对解决水土保持、二氧化碳减排等环境问题起到重要作用。了解人工林的生长特性和蒸腾效率,对植被生长、恢复和管理有着重要意义。为此,该研究连续监测了华南地区12棵不同高度荷木人工林的液流密度,对样树以高度划分等级,采取错位相关法分析不同高度等级胸高处液流与冠层蒸腾的时滞效应。结果表明:气候环境相同时,所有样树胸高处液流日格型相似;荷木林蒸腾量优势木中间木劣势木,所有树木湿季月蒸腾量大于干季月蒸腾量;不同高度等级之间时滞差异显著,劣势木时滞50min,优势木和中间木时滞20min;所有样树干湿季时滞差异不显著,同一高度级两季节时滞差少于10min。这些说明:在干季华南地区土壤水分仍然相对较充足,植物输水阻力没有受到土壤水分降低和长距离水分传导的影响;中间木和优势木时滞短,水力阻力小,蒸腾量大并占据着林段的有利资源;劣势木长势低矮,时滞长,导管阻力大,蒸腾量少,光合作用需要的水热资源少,所以回馈根部的营养物质少,不均衡的营养循环使得林段分化愈明显,劣势木将逐渐从林段中被淘汰。该文指出在荷木人工林生长后期,对于长势低矮,生命力极弱的劣势木应定期砍伐,这样能增加优势木和中间木对光照及水分等有利资源的分配,提高林分质量,增加林地生产力。     

马占相思树干液流与光合有效辐射和水汽压亏缺间的时滞效应

应用Granier热消散探针测定华南丘陵马占相思的树干液流,将液流与对应的光合有效辐射和水汽压亏缺数据列分别进行逐行错位分析和时间序列分析,探讨树干液流与蒸腾驱动因子之间的时滞效应,并对结果进行互相验证.结果表明:马占相思树木蒸腾主要驱动因子是光合有效辐射和水汽压亏缺,树干液流的变化更多地依赖光合有效辐射的变化,而且干季的依赖性比湿季更强;无论是干季还是湿季,树干液流都滞后于光合有效辐射,提前于水汽压亏缺;时滞效应季节差异显著;不同径级马占相思的时滞效应差异不显著;树高、胸径、冠幅并不能解释树干液流与光合有效辐射、水汽压亏缺之间的时滞效应;干季树干液流与水汽压亏缺之间的时滞效应与夜间水分补充量显著相关,湿季则相反.     

三种植被恢复树种的冠层气孔导度特征及其对环境因子的敏感性

应用Granier热消散探针,长期监测华南地区荷木、大叶相思和柠檬桉林不同径级样树的树干液流,结合同步观测的气象数据,求算冠层气孔导度(g_c),并分析其对环境因子的响应方式及敏感性.结果表明: 不同季节荷木林日间平均g_c显著高于大叶相思和柠檬桉(P<0.05)（除3月外）.在干季和湿季,g_c与光合有效辐射(PAR)呈现对数正相关关系(P<0.001),湿季g_c对PAR响应比干季更敏感.g_c与水汽压亏缺(VPD)在干湿季均呈现对数负相关关系(P<0.001),同样在湿季表现出更高的敏感性.湿季g_c与VPD的偏相关系数高于干季,VPD对气孔行为的调控作用在湿季更为明显.随着土壤含水量的降低,g_c对VPD的敏感性下降,荷木和柠檬桉林下降的幅度大于大叶相思林,荷木和柠檬桉林下降的幅度相当.通过综合分析g_c对环境因子(PAR和VPD)的敏感性及其对土壤含水量变化的响应规律,发现乡土树种荷木作为植被恢复树种比外来引种的大叶相思和柠檬桉更为适宜.     

Aquaporins and biological rhythm

Aquaporins are membrane-intrinsic proteins that facilitate membrane transport of water and small solutes or even gases. Aquaporin genes are found in almost all living organisms. In plants the proteins account for water uptake and transport as well as CO₂ availability for photosynthesis. These processes are subjected to diurnal or circadian regimes. Expression and even function of aquaporins also follows day - night rhythms. Significance of aquaporin function in chronobiology has been provided by recent publications, which are summarised here. Examples of the significance of aquaporins in processes related to chronobiology are given for root water transport and leaf movement in several plant species.     

广东省水资源特点和合理开发利用研究

本文论述广东水资源量,时空分布和季节变化特点,并分析广东用水存在问题,不合理开发利用水资源和浪费水;水库蓄水和调节能力未能满足用水要求;水质污染日渐严重。使水资源渐感紧缺。按目前用水趋势,要达到供需水平衡,必须成立统一管理水资源的流域机构;按不同的经济发展阶段,改变其主要洪水职能;节约用水;增加水库的供水和调节能力;改变调峰发电方式：提高重复用水率;保护水质;做好水土保持工作。最后提出,制定地方经济发展总体规划时,其用水量必须与可能供水量相适应。     

北京市水足迹及农业用水结构变化特征

运用水足迹的理论和方法计算评价了1990—2005年北京市水足迹及水资源利用的可持续性,在此基础上进一步分析了北京市农业用水结构的变化特征。结果表明:(1)北京市水足迹从1990年的81.5亿m3上升至2005年的168.6亿m3,人均水足迹由750.1m3上升为1096.0m3;(2)北京市水资源匮乏度不断升高,1995年以来水资源自给率呈下降趋势,与之相对应的水资源依赖度越来越高;(3)农业部门用水量在本地用水量中的比例平均每年为55.1%,虚拟水净输入量在虚拟水净输入总量中的比例平均每年达到89.1%;(4)高耗水型作物产品生产用水比例升高加大了农业用水压力,动物产品生产用水量呈增加趋势,2001—2005年动物产品生产引入的虚拟水占到其虚拟水总量的81.3%。北京市水资源利用呈不可持续状态,通过农业系统内部结构的优化调整,实现农业部门水资源的高效利用是缓解北京市水资源紧缺问题的关键。     

Role of protein conformation and aggregation in pumping water in and out of a cell

Dialysis cassettes containing BSA solutions were used to simulate passive in vivo conditions to assess the effect of protein conformation and aggregation on cell water content. The cassettes were suspended in dextran solutions to provide a range of fixed osmotic stress values simulating blood plasma. The system was placed on a shaker for 24 h to attain equilibrium. Four manipulation methods; pH, cosolute salt concentration, e.g. NaCl, temperature annealing and urea concentration denaturant were varied to produce well-known manipulations of BSA conformation. It was observed that the cell water content varied from +14% to about -13% with changes in protein conformation and aggregation. The findings demonstrate that a change in protein conformation and aggregation, pumps water in and out of a cell to maintain equilibrium % water content matching the protein conformational hydration parameter. This concept supplements existing theories on cell volume regulation.     

工业水足迹评价与应用

大规模的工业生产不但消耗了大量的水资源,同时产生了大量的工业废水,这是造成和加剧全球或区域水资源危机和水环境问题最重要的原因之一。对工业生产过程的水资源综合影响进行科学有效评估是目前资源环境管理领域研究的重要问题之一,是采取有效措施、提升工业生产的水资源利用效率和管理水平的重要前提和基础。以发展和完善工业生产过程的水资源综合影响的评价系统和方法体系为目标,基于水足迹理论,提出了工业水足迹的概念,即用以测量由某一产品、工业企业、行业或区域的工业生产过程引发的水资源利用增量的一个多维指标。以此概念为理论基础,进而首先分析了工业水足迹的内涵,包括直接工业水足迹与间接工业水足迹两部分。另外,区别于全生命周期的水足迹,工业水足迹评价是针对工业生产过程中由于工业原料、辅料、能源和水的输入,以及废水、废物与产品的输出产生的水足迹,其系统边界不包括分销零售、消费使用与废物处理等环节。其次,在确定的系统边界内构建了工业水足迹的核算框架和基础方法体系,即从生产、公共及运输3个方面收集数据、处理并核算。最后,从产品、企业、行业和区域4个层面对工业水足迹的应用及其意义进行了展望。     

宽甸县水中硼的背景浓度及污染现状分析

采集辽宁宽甸县各种水样51个,用ICP—MS分析硼含量。结果表明,宽甸县水中硼含量的背景值与世界水平相当,污染地区地表水和地下水硼含量的平均值分别是背景点的23．1和495．6倍。硼的开采和加工对水体产生了较严重的硼污染。     

Simulations of apo and holo-fatty acid binding protein: structure and dynamics of protein, ligand and internal water.

Two molecular dynamics simulations of 5 ns each have been carried out for rat intestinal fatty acid binding protein, in apo-form and with bound palmitate. The fatty acid and a number of water molecules are encapsulated in a large interior cavity of the barrel-shaped protein. The simulations are compared to experimental data and analyzed in terms of root mean square deviations, atomic B-factors, secondary structure elements, hydrogen bond patterns, and distance constraints derived from nuclear Overhauser experiments. Excellent agreement is found between simulated and experimental solution structures of holo-FABP, but a number of differences are observed for the apo-form. The ligand in holo-FABP shows considerable displacement after about 1.5 ns and displays significant configurational entropy. A novel computational approach has been employed to identify internal water and to capture exchange pathways. Orifices in the portal and gap regions of the protein, discussed in the experimental literature, have been confirmed as major openings for solvent exchange between the internal cavity and bulk water. A third opening on the opposite side of the barrel experiences significant exchange but it does not provide a pathway for further passage to the central cavity. Internal water is characterized in terms of density distributions, interaction energies, mobility, protein contact times, and water molecule coordination. A number of differences are observed between the apo and holo-forms and related to differences in the protein structure. Solvent inside apo-FABP, for example, shows characteristics of a water droplet, while solvent in holo-FABP benefits from interactions with the ligand headgroup and slightly stronger interactions with protein residues.     

Abscisic acid and ethylene content in Gerbera jamesonii plants submitted to drought and rewatering

Gerbera jamesonii plants were subjected to a drying and rewatering for 10 d under greenhouse conditions. Transpiration rate and leaf water potential decreased with the application of stress and recovered to a level similar to that observed in the control plants. Leaf abscisic acid concentration increased while ethylene production decreased under stress. After rewatering, each of the parameters recovered, to similar levels, as in the control. This revised version was published online in July 2006 with corrections to the Cover Date.     

Risk assessment of adenoviruses detected in treated drinking water and recreational water

AIMS: Human adenoviruses (HAds) have previously been detected in sewage and polluted river and dam water, as well as treated drinking water. The 51 serotypes of HAds cause a wide range of infections with clinical manifestations associated with the gastrointestinal, respiratory and urinary tracts, and the eyes. Water may play a meaningful role in the transmission of many of these HAd serotypes, specifically the enteric HAds which are transmitted via the faecal-oral route. The presence of these viruses in water used for drinking and recreational purposes is considered to constitute a potential health risk. In this study, the risk of infection by the group of HAds previously detected over a period of 1 year in selected drinking water supplies, as well as river and dam water used for recreational purposes, was assessed. METHODS AND RESULTS: Adenoviruses were previously detected in nine of 204 (4.41%) samples of two drinking water supplies (A and B) treated and disinfected according to international specifications, in four of 51 (7.8%) samples of river water and nine of 51 (17.7%) samples of dam water. Application of these previously published results in an exponential risk assessment model indicated an annual risk of infection of 1.01 x 10(-1) and 1.7 x 10(-1) for drinking water supplies A and B, respectively, assuming a daily consumption of 2 l day(-1). The daily risk of infection constituted by HAds in the river water was calculated as 1.71 x 10(-4), and in the dam water as 3.12 x 10(-5), assuming a consumption of 30 ml of water per day. CONCLUSIONS: The risk of infection exceeded the tolerable risk of one infection per 10 000 consumers per year proposed for drinking water. However, the results for river and dam water used for recreational purposes were within the tolerable risk of one infection per 1000 bathers per day proposed for environmental waters used for recreational purposes. SIGNIFICANCE AND IMPACT OF THE STUDY: The study showed that the risk of HAd infection calculated for the drinking water supplies and the recreational water may overestimate the actual risk of infection, as conservative values were assumed for some of the variables. For a more accurate assessment of the potential risk of infection research should at least include a thorough investigation of the water consumption of individuals in South Africa, and the efficiency of recovery of the glass wool adsorption-elution method.     

Covalently linked immunomagnetic separation/adenosine triphosphate technique (Cov‐IMS/ATP) enables rapid,in‐field detection and quantification of Escherichia coli and Enterococcus spp. in freshwater and marine environments

Aims: Developing a rapid method for detection of faecal pollution is among the critical goals set forth by the Environmental Protection Agency in its revision of water quality criteria. The purpose of this study is to devise and test covalently linked antibody–bead complexes for faecal indicator bacteria (FIB), specifically Escherichia coli or Enterococcus spp., in measuring water quality in freshwater and marine systems. Methods and Results: Covalently linked complexes were 58–89% more robust than antibody–bead complexes used in previous studies. Freshwater and marine water samples analysed using covalently linked immunomagnetic separation/adenosine triphosphate quantification technique (Cov‐IMS/ATP) and culture‐based methods yielded good correlations for E. coli (R = 0·87) and Enterococcus spp. (R = 0·94), with method detection limits below EPA recreational water quality health standards for single standard exceedances (E. coli– 38 cells per 100 ml; Enterococcus spp. – 25 cells per 100 ml). Cov‐IMS/ATP correctly classified 87% of E. coli and 94% of Enterococcus spp. samples based on these water quality standards. Cov‐IMS/ATP was also used as a field method to rapidly distinguish differential loading of E. coli between two stream channels to their confluence. Conclusions: Cov‐IMS/ATP is a robust, in‐field detection method for determining water quality of both fresh and marine water systems as well as differential loading of FIB from two converging channels. Significance and Impact of the Study: To our knowledge, this is the first work to present a viable rapid, in‐field assay for measuring FIB concentrations in marine water environments. Cov‐IMS/ATP is a potential alternative detection method, particularly in areas with limited laboratory support and resources, because of its increased economy and portability.