水分胁迫对小麦叶片光合作用的影响及其与抗旱性的关系

在水分胁迫初期,两个小麦品种叶片光合速率,气孔导度和细胞间隙CO_2浓度降低,气孔限制值增加,光合速率的降低主要是气孔因素的限制。中度到严重水分胁迫使叶片光合速率、气孔导度和气孔限制值降低,细胞间隙CO_2浓度明显增加,且叶圆片放氧能力,叶绿体Hill反应、叶绿素荧光强度和表观量子产额降低,此时光合速率的降低主要是叶肉细胞光合活性的下降引起的。抗旱性弱的郑引一号叶肉细胞光合活性比抗旱性强的丰抗13更容易受到水分胁迫的影响。     

水分胁迫对冬小麦CO_2同化作用的影响

比较了两个小麦品种陕合6号和郑引1号经受不同程度的水分胁迫处理后,叶片多种光合参数:净光合速率(P_n)、气孔导度(G_s)、细胞间隙CO_2浓度(G_i)、表观量子需要量和羧化效率以及Rubis CO蛋白量与活性等的变化。在轻度水分胁迫下,叶片光合速率降低的根本原因在于气孔导度的下降;而在严重胁迫下,非气孔因素起主要作用。     

白刺叶不同水分状况下光合速率及其叶绿素荧光特性的研究

采用L I-COR 6400便携式光合测定系统测定并研究了乌兰布和沙漠白刺叶不同水分状况下光合速率及其叶绿素荧光参数的变化特征.结果表明,随着白刺水势降低其净光合速率和气孔导度快速下降,当水势降低到一定值时,净光合速率、气孔导度几乎不变;而叶绿素荧光指标与叶水势关系在高水势时随着叶水势下降叶绿素荧光指标值近似不变,当水势下降到一定值时近似呈直线下降.白刺水饱和状况下的光补偿点为(43.1±4.8)μm o l.m-2.-s 1,光饱和点为(676±150)μm o l.m-2.-s 1;叶生长初期和叶成熟期净光合速率水势补偿点(净光合速率为0时的水势)分别为-3.65 M Pa和-5.76 M Pa,NPQ初始水分胁迫水势分别为-2.20 M Pa和-6.63 M Pa.研究指出运用净光合速率水势补偿点和非光化学猝灭初始水分胁迫水势可评价白刺对干旱环境的适应性.     

不同生育期玉米叶片光合特性及水分利用效率对水分胁迫的响应

利用大型移动防雨棚开展了玉米水分胁迫及复水试验,通过分析玉米叶片光合数据,揭示了不同生育期水分胁迫及复水对玉米光合特性及水分利用效率的影响。结果表明:水分胁迫导致玉米叶片整体光合速率、蒸腾速率和气孔导度下降以及光合速率日变化的峰值提前;水分胁迫后的玉米叶片蒸腾速率、光合速率和气孔导度为适应干旱缺水均较对照显著下降,从而提高了水分利用效率,缩小了与水分充足条件下玉米叶片的水分利用效率差值;在中度和重度水分胁迫条件下,玉米叶片的水分利用效率降幅低于光合速率、蒸腾速率和气孔导度的降幅, 有时甚至高于正常供水条件下的水分利用效率;适度的水分胁迫能提高玉米叶片的水分利用效率,从而增强叶片对水分的利用能力,抵御干旱的逆境;水分亏缺对玉米光合速率、蒸腾速率及水分利用效率的影响具有较明显滞后效应,干旱后复水,光合作用受抑制仍然持续;水分胁迫时间越长、胁迫程度越重,叶片的光合作用越呈不可逆性;拔节-吐丝期水分胁迫对玉米叶片光合作用的逆制比三叶-拔节期更难恢复。     

干旱和复水对大豆(Glycine max)叶片光合及叶绿素荧光的影响

选用河南省大面积种植的大豆品种豫豆29作为实验材料,通过研究逐步干旱和旱后复水条件下大豆叶片光合、叶绿素荧光等指标随土壤水分的动态变化规律,以期为大豆的水分高效利用提供理论依据。研究发现,在土壤相对含水量高于46.5%时,虽然随着土壤相对含水量的下降,豫豆29仍可以保持它的叶片水分状态;豫豆29的叶片净光合速率在土壤水分中等条件下最大,在土壤相对含水量为64.3%时,它比对照组高出11.2%(P<0.01);在实验的第3d,处理组的土壤相对含水量降为46.5%,叶片水势与对照组相比降低了7.2%(P>0.05),净光合速率为对照组的89.6%(P<0.05),但气孔导度却迅速下降为对照组的44.7%(P<0.01),这说明与叶片的光合和水分状况相比,豫豆29的气孔对土壤水分的匮缺更加敏感。复水后,豫豆29叶片的水势、净光合速率、气孔导度和叶绿素荧光等值都可以得到迅速的恢复,并在实验的最后接近对照组的水平,这表明豫豆29的叶片光合在水分胁迫解除后有迅速恢复的能力。     

番茄叶片光合作用对快速水分胁迫的响应

采用聚乙二醇(PEG-6000)溶液控制番茄根际水势和叶片离体的方式设置了水分胁迫处理,测算了光合诱导过程中净光合速率、暗呼吸速率和CO2补偿点等光合参数的变化.结果表明:在1000μmol·m-2·s-1光诱导下,水分胁迫处理的番茄叶片净光合速率(Pn)达到最大值所需时间缩短为对照的1/3,气孔导度(gs)快速增大为对照的1.5倍.水分胁迫处理的番茄叶片光饱和点(LSP)比对照降低了65％～85％,而光补偿点(LCP)比对照增加了75％ ～100％,缩小了番茄叶片利用光能的有效范围.水分胁迫处理的番茄叶片最大光合能力(Amax)低于对照40％以上,暗呼吸速率(Rd)增大了约45％.可见,快速水分胁迫处理使番茄叶片气孔迅速开放,光合诱导初始阶段消失.水分胁迫导致植物利用光能的效率和潜力降低是植物生产力下降的重要原因,而气孔调节是番茄适应快速水分胁迫的重要生理机制.     

小麦叶片光合作用与其渗透调节能力的关系

在缓慢干旱条件下,小麦叶片渗透调节能力在一定范围内随胁迫程度的加剧而增加,而在快速干旱下,渗透调节能力丧失。小麦叶片通过渗透调节使光合速率和气孔导度对水分胁迫的敏感性降低,叶片维持较高的电子传递能力、RuBP羧化酶活性和叶绿体光合能量转换系统活性,并推迟了小麦叶片光合速率受气孔因素限制向叶肉细胞光合活性限制转变的时间。     

PEG模拟的水分胁迫条件下2种辣椒相关生理指标的变化

聚乙二醇(PEG)作为渗透调节剂可用于进行水分胁迫实验。研究了5个不同浓度梯度的PEG溶液中,博辣6号和甜杂1号辣椒苗的光合速率、根系活力、叶片水势、脯氨酸含量等生理指标的变化,探究水分胁迫对这2种辣椒苗的影响。结果表明,随着PEG浓度的升高,博辣6号的脯氨酸含量、叶片水势、净光合速率、蒸腾速率和气孔导度下降的幅度大于甜杂1号,而根系活力下降幅度小于甜杂1号。     

番茄叶片光合作用对快速水分胁迫的响应

采用聚乙二醇(PEG 6000)溶液控制番茄根际水势和叶片离体的方式设置了水分胁迫处理,测算了光合诱导过程中净光合速率、暗呼吸速率和CO₂补偿点等光合参数的变化.结果表明： 在1000 μmol·m^-2·s^-1光诱导下,水分胁迫处理的番茄叶片净光合速率(P_n)达到最大值所需时间缩短为对照的1/3,气孔导度(g_s)快速增大为对照的1.5倍.水分胁迫处理的番茄叶片光饱和点(LSP)比对照降低了65%～85%,而光补偿点(LCP)比对照增加了75%～100%,缩小了番茄叶片利用光能的有效范围.水分胁迫处理的番茄叶片最大光合能力(A_max)低于对照40%以上,暗呼吸速率(R_d)增大了约45%.可见,快速水分胁迫处理使番茄叶片气孔迅速开放,光合诱导初始阶段消失.水分胁迫导致植物利用光能的效率和潜力降低是植物生产力下降的重要原因,而气孔调节是番茄适应快速水分胁迫的重要生理机制.     

干旱生境中接种丛枝菌根真菌对三叶鬼针草

为阐明丛枝菌根真菌对石灰岩地区适生植物三叶鬼针草(Bidens pilosa L.)光合作用的影响,设置正常浇水(A)、中度干旱胁迫(B)和重度干旱胁迫(C)3个水分处理梯度,比较了不同水分处理条件下接种丛枝菌根真菌Glomus mosseae和未接种三叶鬼针草之间净光合速率、气孔导度、蒸腾速率、胞间CO2浓度、羧化效率、水分利用效率等特征的差异.结果表明,水分胁迫显著降低三叶鬼针草的净光合速率、气孔导度、蒸腾速率和羧化效率.胞间CO2浓度在处理的前期(7d)因干旱胁迫而降低,在后期随土壤含水量的降低而升高;水分利用效率则是中度胁迫的植株、正常浇水处理植株、重度胁迫植株依次降低.在正常浇水条件下接种G. mosseae 对三叶鬼针草光合参数没有产生显著性影响;在中度胁迫条件下,接种植株较未接种植株在水分处理的前28d有更高的净光合速率、气孔导度、蒸腾速率和羧化效率;在重度胁迫条件下,虽然净光合速率、气孔导度、蒸腾速率和羧化效率接种植株高于未接种植株,但是二者并不显著.研究认为,干旱胁迫对三叶鬼针草光合作用的影响在水分处理的前期表现为气孔因素制约,在后期则主要是非气孔因素的影响;在正常浇水条件下接种G. mosseae 对三叶鬼针草的光合作用没有显著性影响,在干旱胁迫条件下,丛枝菌根真菌通过改善三叶鬼针草气孔导度和羧化效率等减弱干旱胁迫对植株的伤害,但是这种保护作用因为土壤水分的严重匮乏以及土壤干旱的时间延长而受到限制.     

水色及其与藻类的关系

水色是水环境质量评价中一个重要的综合性指标,不同的水色反映水质的营养状况;藻类群落是水体营养状况的生物表征,对水色具有重要影响作用。本文通过分析不同水色中的藻类优势种群及其作用,认为藻类优势种群是决定水色的主要生物因子;阐明了藻类与水色之间的相互关系以及施肥改变水色的内在机理,水体营养状况决定了水体藻类群落结构进而决定不同的水色;并结合实践对如何判断不同藻类种群引起的不同水色提出了看法,同时对改变和调控水色的方法和途径进行了论述,为相关生产和水环境管理提供理论依据和技术指导。     

我国陆地地面水环境近十年来的变化特征及原因分析

本文根据近十年来我国环境状况公报和有关统计资料,分析了我国陆地地面水环境近十年来的变化特征及其原因。分析表明我国陆地地面水环境近十年来呈现由恶化到基本控制的变化态势;重要的污染源正由工业污染向生活污水和农业面源污染转变,从而提出了相应的污染控制策略。     

节水农业及其生理生态基础

提高自然降水和灌溉水利用效率是节水农业要解决的中心问题。近年实践证明,通过提高水分利用率的途径增加农田生产力存在很大潜力,节水和增产的目标可能同时实现。为实现这一目标,需要研究确定植物水分亏缺的允许程度。植物各个生理过程对水分亏缺的敏感性不同,综合文献报道和作者研究结果,水分亏缺对与作物产量密切相关生理过程影响的先后顺序为:生长—蒸腾—光合—运输。在一定条件下,有限水分亏缺不会对作物最终经济产量造成影响,但却能显著提高水分利用效率。     

Meeting water requirements of an expanding world population

Water availability in the root zone (green water) is a critical component of plant production, but is often deficient in many Third World regions. When deficient, runoff water (blue water) can be added. Focusing on ten physiographic regions in Africa and Asia, characterized by mainly or partly dry climates and rapid population growth, this study analyses whether in a 30-years'' perspective enough blue water could be provided to allow food self-sufficiency. It is assumed that for food self-sufficiency some 900 cubic metres of water per person per year has to be provided. In judging the realism it is assumed that a maximum 25 per cent increase in water mobilization rate would be manageable in a 30-year period. The study suggests that by 2025, water scarcity will make regions populated by some 55 per cent of the world''s population dependent on food imports. For water-wasting regions in Central Asia, water saving might, however, free the water needed. The paper closes by proposing some urgent measures. <br>     

人体电磁兼容系统与电磁场处理水--Ⅱ.电磁水(电磁场处理过的水)的特性

“人体电磁兼容系统与电磁场处理水”一文分为三篇文章写 ,第一篇“I.人体电磁兼容系统” ,已在《生物磁学》发表 ,本文是第二篇。水占人体总重量的 70 %左右 ,因而在很大程度上人体的性能是由水的特性所决定。而我们研究电磁水之目的是为了人体的自然保健 ,因而本文专题讨论水。首先简介人们还不太注意的“水的异乎寻常的特性” ,尔后讨论“电磁场对水的作用” ,最后阐述“电磁水的特性” ,尤其是“水感应电磁场”这一特性。有关水的问题广泛而且复杂 ,动态性强 ,太多数水的现象的研究应该服从于“统计学规律” ,引入“量子力学”的处理方法是必要的 ,也简捷些。     

A critique on the water-scarcity weighted water footprint in LCA

The water footprint (WF) has been developed within the water resources research community as a volumetric measure of freshwater appropriation. The concept is used to assess water use along supply chains, sustainability of water use within river basins, efficiency of water use, equitability of water allocation and dependency on water in the supply chain. With the purpose of integrating the WF in life cycle assessment of products, LCA scholars have proposed to weight the original volumetric WF by the water scarcity in the catchment where the WF is located, thus obtaining a water-scarcity weighted WF that reflects the potential local environmental impact of water consumption. This paper provides an elaborate critique on this proposal. The main points are: (1) counting litres of water use differently based on the level of local water scarcity obscures the actual debate about water scarcity, which is about allocating water resources to competing uses and depletion at a global scale; (2) the neglect of green water consumption ignores the fact that green water is scarce as well; (3) since water scarcity in a catchment increases with growing overall water consumption in the catchment, multiplication of the consumptive water use of a specific process or activity with water scarcity implies that the resultant weighted WF of a process or activity will be affected by the WFs of other processes or activities, which cannot be the purpose of an environmental performance indicator; (4) the LCA treatment of the WF is inconsistent with how other environmental footprints are defined; and (5) the Water Stress Index, the most cited water scarcity metric in the LCA community, lacks meaningful physical interpretation. It is proposed to incorporate the topic of freshwater scarcity in LCA as a “natural resource depletion” category, considering depletion from a global perspective. Since global freshwater demand is growing while global freshwater availability is limited, it is key to measure the comparative claim of different products on the globe's limited accessible and usable freshwater flows.     

Water resources stress assessment and risk early warning–a case of Hebei Province China

In most parts of China, water resources development and utilization has reached or exceeded the international warning level, especially in the northern arid and semi-arid regions, the serious water stress have aroused worldwide concerns. Many issues of water resources are closely and some inseparably associated with human activities. In this study, the water footprint (WF) and related indicators were applied as comprehensive indicators to assess real water use by humans from the consumption perspective. A Fuzzy Comprehensive Evaluation Model (FCE) was used for the evaluation in its role to assess water stress. And the index system of water stress assessment including four aspects, namely water supply and demand balance, socio-economy, agricultural production and ecological environment was established. Taking the case of Hebei province of China where there is serious conflict between water supply and demand, water stress assessment of all eleven administrative areas for the period 2000–2013 was analyzed. The findings showed that water stress was denoted by three levels, namely high water stress (red zone), general water stress (yellow zone) and low water stress (blue zone), which lays the foundation of the further research on water risk warning. According to the results of water stress assessment and the socio-economic development trends of Hebei, a Markov Chain Risk Warning model was built to describe the risk state of water system and to predict the transition probability of future states. This was intended to focus on the possibility that water stress levels might change into higher water stress level. The current study aims at extending earlier research by making a first step from water footprint estimation towards water stress assessment and providing reference for scientific management of water resources in arid and semi-arid regions.     

飞来峡水库水质现状及其向广州供水能力的探讨

水库供水(特别是对城市的供水)已成为缓解全球水资源供给不足的重要途径。于2001年至2003年的丰水期和枯水期调查分析了新建河流型水库-飞来峡水库的水质、浮游植物群落特征和营养状态。结果表明飞来峡水库水质良好,多数水质指标为地表水Ⅱ水质标准,其营养盐浓度、浮游植物的密度均较低,属于贫中营养。从近几年的水质变化来看,建库后,水质改善明显。通过对广州市饮用水源水水质现状及存在问题的分析,从水质和水量两方面探讨了飞来峡水水库作为广州优质水源地的优势。由于来水量大,水库水质净化能力强,飞来峡水库水质和水量均有保证,可作为广州市重要水源地之一。但今后,在流域管理和水土保持工作更应重视和加强。     

Investigations into biophysical regulation mechanisms of physiological water exchange of the Nitella translucens cells with the surroundings

In the present paper, we have presented a theoretical discussion of specific biophysical mechanisms pertaining to the regulation (by means of internal factors) of physiological water exchange with the water medium by the cells of the Nitella translucens. The investigation has demonstrated that these cells have a capacity for water exchange regulation through changes in the values of transport parameters of the cell membrane (i.e. the filtration coefficient L_p and the reflection coefficient σ), as well as changes in the concentration C_si (inside the cells) of the osmotically active solute.