Canopy structure and radiation interception of Salix matsudana: Stand density dependent relationships

Aims Plants can enhance their photosynthetic efficiency and competitiveness by adjusting canopy structure and radiation interception. The objective of this paper was to quantify the relationship between canopy structure (crown depth and crown area) and light interception (LI) in a Salix matsudana stand under three different stand densities in a flood plain of Zhangye.Methods Our study site is located at the Heihe flood plain of Xichengyi in Ganzhou district, Zhangye City, Gansu Province in the middle Heihe River, where S. matsudana is the dominant species. Based on stand density (10 m × 10 m), the S. matsudana community is divided into three types: low density (I, 25-36 Ind.·plot^-1), medium density (II, 37-48 Ind.·plot^-1), and high density (III, 49-60 Ind.·plot^-1). Community characteristics, soil physical and chemical properties of each type were measured. At each plot, we measured photosynthetically active radiation (PAR), LI, net photosynthetic rate (P_n), transpiration rate (T_r), crown depth, crown area, leaf area index (LAI), twig numbers, twig length, and bifurcation angle. The standardized major axis (SMA) estimation method was used to determine the relationships between LI and canopy structure.Important findings With increasing in stand density, we found that soil moisture increased, and soil electric conductivity decreased, while twig length and crown depth increased, and PAR, twig numbers, bifurcation angle and crown area decreased. LAI and LI, P_n and T_r reached their maximum at the stand of medium density. There was a significant, positive correlation and negative correlation (p < 0.01), respectively, between the LI, crown depth and crown area at low density (I), whereas low significant (p < 0.05) at high density (III), and high significantly positive correlation (p < 0.01) at the medium density (II). S. matsudana has more horizontal branches that reduce LI. Canopy thickness and increased crown area at low density. More vertical distribution of branches at high density, and a more balanced spacial distribution were found at medium density.     

Trade-off relationship between vein density and vein diameter of Achnatherum splendens in response to habitat changes in Zhangye wetland

Aims The coevolution between vein traits has influences on water use strategies of plant and the formation of leaf economic spectrum, and therefore is important for understanding the trade-off between carbon input in leaf vein construction and the functional feedback from leaf veins. Our aim is to study the allometric relationship between vein density and vein diameter of Achnatherum splendens populations at three natural microhabitats (subcanopy, transitional and open areas) in Zhangye wetland. Methods According to the shade condition of the arbor canopy and the distance to arbor, the A. splendens community were divided into three microenvironments: subcanopy, transitional and open areas. We sampled 10 (4 m × 4 m) A. splendens plots from each microenvironment and investigate the biological characteristics of the plots and leaf traits of the plants within the plots. Then the soil physical and chemical properties, and community photosynthetically active radiation (PAR) were investigated at three gradients. Six individual of A. splendens were selected in each plot and the leaf length, leaf width, vein density and vein diameter of two or three healthy and complete leaves from four directions of each individual were measured in laboratory. The SMA estimation method and correlation analysis were then used to examine the allometric relationship between vein density and vein diameter. Important findings Along the gradient from subcanopy, transitional zone to open areas, soil moisture displayed a pattern of initial decrease of plant community, and soil electric conductivity displayed increase changing trends. Photosynthetically active radiation (PAR), vapor pressure deficit (VPD), vein density (1.28-1.59 mm·mm^-2), leaf width and water use efficiency (WUE) increase gradually, while the leaf length, vein diameter (0.21-0.16 mm) of A. splendens decrease. The average value of plasticity indexes of leaf characteristics was 0.19. Leaf net photosynthetic rate (P_n), transpiration rate (T_r) and bundle density increase first and them decrease. The vein density and vein diameter of A. splendens were negatively correlated with each other in subcanopy environment (p < 0.01), transitional and open areas (p < 0.05). The SMA (0.54-1.50) slope of regression equation in the scaling relationships between vein density and vein diameter decrease gradually from subcanopy to open areas.     

Trade-off between leaf size and vein density of Achnatherum splendens in Zhangye wetland

Aims Trade-offs between leaf size and vein density are the basis of the theory of leaf economics spectrum, and are to understand the relationship between the physical build and physiological metabolism of plant leaves under different degrees of competition for resources. Our objective was to study the changes in the relationship between leaf size and vein density (leaf dry biomass and leaf area) in Achnatherum splendens populations with four plant bundle densities located in the flood plain wetland of Zhangye. Methods The study site was located at floodplain wetlands of Zhangye, Gansu Province, China. Survey and sampling were carried out in the communities that A. splendens dominated. According to the plant bundle density, the A. splendens communities were divided into four density gradients with “bundle” for the sampling units, high density (I, > 12 bundle·m^-2), medium density (II, 8-12 bundle·m^-2), medium density (III, 4-8 bundle·m^-2) and Low density (IV, <4 bundle·m^-2). According to the density of each combination, we chose seven (5 m × 5 m) A. splendens samples, resulting in a total of 28 samples (4 × 7). The soil physical and chemical properties of four density gradients were investigated and six samples of A. splendens were used to measure the leaf area, leaf dry biomass and vein density in laboratory, and biomass of different organs was measured after being dried at 85 °C in an oven. 28 plots were categorized into three groups: high, medium and low density, and the standardized major axis (SMA) estimation method was used to examine the allometric relationships between leaf area, leaf dry biomass and vein density. Important findings The results showed that with the population density changed from high, medium, to low, the soil moisture decreased, and soil electric conductivityincreased. The leaf area, leaf biomass and height of A. splendens decreased, and the vein density, specific leaf area and photosynthetically active radiation (PAR) increased gradually. In addition, leaf net photosynthetic rate (P_n), transpiration rate (T_r) and twig number firstly increased then decreased. There was a highly significantly negative correlation (p < 0.01) between the leaf size and vein density on the high- and low-level densities (I, IV), whereas less significant (p < 0.05) on the level of medium density (II, III). The SMA slope of regression equation in the scaling relationships between leaf size and vein density was significantly smaller than -1 (p < 0.05).     

张掖湿地旱柳叶水势与中脉性状的关联性

植物叶水势和中脉性状是反映叶片水力特性的主要参数,二者之间的关联性对理解植物水分供需平衡的生态适应策略具有重要意义。选择张掖市黑河干流边缘的洪泛平原湿地为实验地,以河岸为起点沿平行河岸线的方向依次设置近水区(样地Ⅰ)、中水区(样地Ⅱ)和远水区(样地Ⅲ)3个水分梯度样地,采用标准化主轴估计方法(standardized major axis estimation,SMA),研究了对水分影响下旱柳(Salix matsudana)叶水势与中脉性状之间的关系。结果表明:随着土壤含水量减少,旱柳林的高度、密度和郁闭度均持续降低,旱柳叶片的中脉密度、净光合速率(Pn)、蒸腾速率(Tr)、光合有效辐射(PAR)和叶片温度(Tleaf)逐渐增加,中脉直径、比叶面积及叶水势、叶绿素含量逐渐减少;不同土壤含水量样地旱柳叶水势与中脉性状间的相关性存在差异(P0.05),在样地Ⅰ和样地Ⅲ叶水势与中脉密度呈极显著负相关关系(P0.01),在样地Ⅱ两者之间呈显著负相关关系(P0.05);旱柳叶水势与中脉直径在3个水分梯度样地均呈显著正相关关系(P0.05)。随着湿地土壤含水量减少,旱柳采取降低叶水势、增加中脉密度并减少中脉直径的资源投资策略,反映了该物种在异质生境中具有较强的叶片性状可塑性,从而有利于其适应特殊的湿地生境。     

Correlation analysis between vein density and stomatal traits of Robinia pseudoacacia in different aspects of Beishan Mountain in Lanzhou

AimsThe relationship between leaf venation and stomatal traits reflects leaf water potential of plants, and is fundamental to probe the relationship between physiological functions and water use. Our objective was to study the changes in the relationship between venation density and stomatal traits (stomatal density and stomatal length) in Robinia pseudoacacia with the changes in slope aspects.MethodsIn Beishan Mountain of Lanzhou in Gansu Province, China, 20 transects were laid out horizontally along the contour at intervals of 50 m from an elevation of 1550-1750 m in four different slope aspects, and 12 plots were set up along each transect at intervals of 5 m. A handed GPS (global positioning system) was used to measure latitude, longitude and altitude at each plot. Community characteristics, including crown density, tree height and soil moisture, were investigated. Robinia pseudoacacia within all plots were sampled and used for measurements of individual leaf area, venation density, stomatal density and stomatal length in laboratory in each plot. The 240 plots were categorized into groups of southern, eastern, western and northern aspects, and the standardized major axis (SMA) estimation method was then used to examine the relationship between the stomatal density, stomatal length and vein density.Important findings The results showed that with a change of the aspect from south to east, west, and north, the crown density, average tree height and soil moisture of the plant community increased, while leaf net photosynthetic rate (P_n), transpiration rate (T_r), photosynthetically active radiation (PAR), vein density and stomatal density decreased. In addition, stomatal length and individual leaf area increased. Venation density of each aspect of R. pseudoacacia was positively correlated with stomatal density (p < 0.05) and negatively with stomatal length (p < 0.05). These correlations were strongest in south slope (p < 0.01).     

张掖湿地芦苇比叶面积和水分利用效率的关系

密度制约下植物比叶面积与水分利用效率的关系,对于认识土壤-植物-大气的物质循环和能量流动机制具有重要意义。采用样方调查法,研究了3种密度(高密度Ⅰ:210—230株/m~2;中密度Ⅱ:130—150株/m~2;低密度Ⅲ:50—70株/m~2)条件下芦苇种群比叶面积(SLA)和水分利用效率(WUE)的关系。结果表明:随着芦苇种群密度的逐渐降低,湿地群落的土壤含水量逐渐减小,芦苇的株高、叶面积、叶干重、SLA和蒸腾速率(Tr)均呈逐渐减小的趋势,净光合速率(Pn)、叶厚度和WUE呈逐渐增加的趋势;不同密度条件下湿地植物芦苇比叶面积(SLA)与水分利用效率(WUE)的关系存在显著差异(P0.05),在高密度(Ⅰ)与低密度(Ⅲ)样地,芦苇SLA与WUE呈极显著负相关关系(P0.01);在中密度(Ⅱ)样地,二者呈显著负相关关系(P0.05)。不同种群密度的湿地生境中,芦苇通过调整叶片形态构造,使比叶面积和水分利用效率形成了相反的变化趋势,反映了植物适应光照条件、土壤含水量等异质性环境因子的资源利用策略和光合产物积累模式。     

Revised algorithm of ecosystem water use efficiency for semi-arid steppe in the Loess Plateau of China

Aims We evaluated the applicability of different measures of water use efficiency through analyzing the coupled dynamics of GPP and evapotranspiration in the semi-arid steppe in the Loess Plateau of China. Our objective is to explore the applicability of two quantitative measures of ecosystem water use efficiency—inherent water use efficiency (IWUE) and underlying water use efficiency (uWUE) —for the semi-arid steppe and to endeavor necessary modifications.Methods The consistency and stability of three indices of water use efficiency formulations (i.e. WUE, IWUE, uWUE) were calculated and compared at hourly, daily and annual time scales before proposing an optimal water use efficiency (oWUE). These indices were additionally used to quantify their importances in modeling the diel change of gross primary production (GPP). The yielded-accuracy of the prediction was used for justifying their uses.Important findings IWUE and uWUE appeared suitable for examining the coupled water-carbon characteristics of vegetation at hourly and daily scales, whereas WUE was more plausible on the annual and interannual scales. The optimized water use efficiency index did not improve the prediction of the coupled water-carbon characteristics as compared with uWUE, but it improved the prediction of GPP and its dynamics. oWUE and uWUE improved the predictions of GPP in the peak growing period, while WUE predicted the GPP better at the early and late growing season. Interestingly, we found that IWUE was not suitable for predicting GPP and its dynamics. The results will be of great importance in modeling the effects of climate change on the carbon assimilation and water cycle for the future.     

Temporal changes of vegetation water use efficiency and its influencing factors in Northern China

水分利用效率(WUE)既是衡量植被生长适应性的重要指标, 也是连接生态系统水碳循环的纽带。认识不同类型植被WUE的时间变化特征及驱动机制有助于增进对生态系统水碳循环过程的理解。已有研究表明, 在不同时间尺度下, WUE呈现不同的时间变化特征, 但现有研究多是集中在单一的时间尺度下开展的, 对不同植被类型在不同时间尺度下的动态变化及影响因子分析开展得较少。该研究选用中国北方地区9个定位观测台站的通量与气象数据, 分析了WUE的日内变化和季节变化特征, 并在0.5 h、1 d、8 d以及月尺度下, 分别分析了气温(T_a)、相对湿度(RH)、饱和水汽压差(VPD)以及光合有效辐射(PAR)等非生物因子对WUE的影响。同时, 该研究也分析了植被叶面积指数(LAI)和降水(P)对WUE的影响。研究发现: (1) WUE的日变化呈现不对称的“U”型特征, 日出时的WUE普遍高于日落时。荒漠地区WUE的季节变化呈“U”型, 而其他站点呈现单峰型。不同站点WUE的季节变化可以分为总初级生产力(GPP)主导型和蒸发散(ET)主导型, 并随着时间尺度的扩大, GPP或ET的主导作用逐渐增强。(2)在较短的时间尺度(0.5 h、1 d)上, T_a、RH、VPD和PAR是影响WUE变化的主要因子, 但随着时间尺度的扩大, T_a和RH成为影响WUE变化的主要因子, 并且与WUE的相关关系受GPP或ET对WUE主导作用的影响, 随着时间尺度增大, T_a和RH与WUE的线性关系更加显著。(3) WUE大体上随LAI的增加而增加, 但当LAI超过一定值时, 在长白山、海北和张掖站, WUE对LAI的敏感性降低。降水与WUE的关系在研究区域内并不显著。(4)不同植被类型的WUE由大到小依次为森林、农田、草地、湿地和荒漠。     

Spatio-temporal characteristics of evapotranspiration and water use efficiency in grasslands of Xinjiang

Aims Xinjiang is located in the hinterland of the Eurasian arid areas, with grasslands widely distributed. Grasslands in Xinjiang provide significant economic and ecological benefits. However, research on evapotranspiration (ET) and water use efficiency (WUE) of the grasslands is still relatively weak. This study aimed to explore the spatio-temporal characteristics on ET and WUE in the grasslands of Xinjiang in the context of climate change.Methods The Biome-BGC model was used to determine the spatio-temporal characteristics of ET and WUE of the grasslands over the period 1979-2012 across different seasons, areas and grassland types in Xinjiang.Important findings The average annual ET in the grasslands of Xinjiang was estimated at 245.7 mm, with interannual variations generally consistent with that of precipitation. Overall, the value of ET was lower than that of precipitation. The higher values of ET mainly distributed in the Tianshan Mountains, Altai Mountains, Altun Mountains and the low mountain areas on the northern slope of Kunlun Mountains. The lower values of ET mainly distributed in the highland areas of Kunlun Mountains and the desert plains. Over the period 1979-2012, average annual ET was 183.2 mm in the grasslands of southern Xinjiang, 357.9 mm in the grasslands of the Tianshan Mountains, and 221.3 mm in grasslands of northern Xinjiang. In winter, ET in grasslands of northern Xinjiang was slightly higher than that of Tianshan Mountains. Average annual ET ranked among grassland types as: mid-mountain meadow > swamp meadow > typical grassland > desert grassland > alpine meadow > saline meadow. The highest ET value occurred in summer, and the lowest ET value occurred in winter, with ET in spring being slightly higher than that in autumn. The higher WUE values mainly distributed in the areas of Tianshan Mountains and Altai Mountains. The lower WUE values mainly distributed in the highland areas of Kunlun Mountains and part of the desert plains. The average annual WUE in the grasslands of Xinjiang was 0.56 g·kg^-1, with the seasonal values of 0.43 g·kg^-1 in spring, 0.60 g·kg^-1 in summer, and 0.48 g·kg^-1 in autumn, respectively. Over the period 1979-2012, the values of WUE displayed significant regional differences: the average values were 0.73 g·kg^-1 in northern Xinjiang, 0.26 g·kg^-1 in southern Xinjiang, and 0.69 g·kg^-1 in Tianshan Mountains. There were also significant differences in WUE among grassland types. The values of WUE ranked in the order of mid-mountain meadow > typical grassland > swamp meadow > saline meadow > alpine meadow > desert grassland.     

张掖湿地芨芨草叶大小和叶脉密度的权衡关系

叶大小-叶脉密度的权衡关系是植物叶经济谱理论的基础, 对理解资源竞争条件下植物叶片的物理构建与生理代谢的关系具有重要的意义。该文采用标准化主轴估计(standardized major axis estimation, SMA)的方法, 按芨芨草(Achnatherum splendens)株丛密度设置I (>12丛·m^-2)、II (8-12丛·m^-2)、III (4-8丛·m^-2)和IV (<4丛·m^-2) 4个密度梯度, 以叶面积和叶干质量分别表示叶大小, 对张掖洪泛平原湿地不同密度条件下芨芨草种群的叶大小和叶脉密度的关系进行研究。结果表明: 随着芨芨草株丛密度的降低, 湿地群落的土壤含水量逐渐减小、土壤电导率逐渐增加, 芨芨草的净光合速率(P_n)、蒸腾速率(T_r)和分枝数呈先增大后减小的趋势, 叶面积、叶干质量、比叶面积和株高呈逐渐减小趋势、光合有效辐射(PAR)和叶脉密度呈逐渐增加趋势; 芨芨草叶大小和叶脉密度在高密度(I)和低密度(IV)样地均呈极显著负相关关系(p < 0.01), 中密度(II、III)样地二者呈显著负相关关系(p < 0.05); 叶大小和叶脉密度回归方程的SMA斜率在不同密度样地均显著小于-1 (p < 0.05), 即芨芨草叶大小和叶脉密度呈“此消彼长”的权衡关系。在高密度湿地群落芨芨草倾向于大叶片低叶脉密度的叶片构建模式, 在低密度湿地群落选择小叶片高叶脉密度的异速生长模式, 体现了密度制约下湿地植物的生物量分配格局和资源利用对策。     

京津冀城市群用水效率及其与城市化水平的关系

深入分析京津冀城市群用水效率与城市化水平的相互关系,揭示不同城市城市化水平对水资源利用效率的影响,有助于缓解水资源短缺问题。结合超效率数据包络模型,定量分析了京津冀城市群不同行业的用水效率,从人口、经济、社会与土地等不同城市化角度,全面分析了城市发展水平与生活、工业、农业三大行业用水效率之间的相互关系。主要结论为:(1)2006—2015年,京津冀城市群生活和工业用水效率总体上略微下降,而农业用水效率明显上升;不同城市之间存在明显差别,唐山、衡水与沧州市各行业用水效率均较高,邯郸和邢台市各行业用水效率均偏低。(2)城市发展水平对不同行业用水效率的影响存在明显差异。城市化水平的提升可以显著提高生活用水效率,但对工业和农业用水效率具有不同程度的负向影响。综合用水效率仅受到经济城市化的显著影响,相关系数达0.19,表明提高用水效率的关键是进一步调整经济产业结构。(3)城市化水平与用水效率梯度的匹配状态较差。一方面,京津冀13个城市中达到匹配的城市仅有4个,占京津冀城市总数的30.77%,匹配程度较低。另一方面,不存在城市化水平和用水效率双高型的城市,匹配层次较低。综上所述,针对京津冀城市化发展与用水效率的失衡关系,应审视水资源投入产出结构并尝试行业联动等节水发展模式。     

意杨苗木耗水特征与水分利用效率

研究杨树耗水量的变化特征、水分利用效率及其影响因子对杨树生理生态研究、造林树种的选择和林业生态工程建设具有重要的指导价值。以意杨(Populus euramevicana cv.‘I-214’)为研究对象进行盆栽试验,设定了4个处理组,分别为T1处理组(种植意杨,密封处理),T2处理组(种植意杨,非密封处理),T3处理组(不种植意杨,非密封处理),C处理组(不种植意杨,密封处理),定量分析了意杨耗水规律、水分利用效率及土壤蒸发量与植株生理特性、气象环境因子之间的关系。结果表明:(1)4个处理组耗水量变化曲线均呈"单峰型",且在7月份达到最大值,2月份降到最低值。(2)栽植意杨的土壤水分蒸发量占总耗水量的15.9%,全年波动状态稳定,本底流失量占30.4%。(3)在地表覆盖物下的意杨蒸腾耗水量占总耗水量的53.7%,年变化曲线为单峰型;栽培意杨的土壤水分总流失量是不栽培意杨土壤总流失量2.77倍;在裸地上种植意杨的土壤水分总蒸发量仅比没有意杨的裸地土壤多流失7.9%水分。(4)在有地表覆盖物下和裸地上的意杨叶面平均蒸腾强度分别为30.8 g cm~(-2)a~(-1),9.5 g cm~(-2)a~(-1);平均每克生物量耗水量为39.61 g。综上所述,意杨具有很强的蒸腾耗水能力,种植意杨可能会造成造林地区土壤水分大量流失,使该地区深层土壤干燥化,不利于土壤储水调节作用的发挥。     

油蒿资源利用效率在生长季的相对变化及对环境因子的响应

为了探明西北半干旱区典型沙生植物油蒿(Artemisia ordosica)叶水平资源利用效率的相对变化及对环境因子的响应机制, 该研究于2018年5-10月, 使用LI-6400XT便携式光合仪测定了毛乌素沙地油蒿叶片的净光合速率(P_n)、蒸腾速率(E)、叶表面光合有效辐射(PAR_l)、叶表面温度(T_l)、叶表面相对湿度(RH_l), 在实验室计算叶片单位面积氮含量(N_area), 分析了叶片氮利用效率(NUE)、水分利用效率(WUE)、光利用效率(LUE)与环境因子之间的关系及NUE、WUE、LUE之间的相对变化。研究结果表明, 在充足且稳定光强下油蒿的P_n主要受温度的影响, NUE、WUE与VPD_l、T_l之间具有显著负相关关系, NUE、WUE与LUE间为正相关关系, NUE、WUE和LUE最大值分别发生在5、7和9月, 分别为9.43 μmol CO₂·g^-1·s^-1、3.86 mmol·mol^-1、0.04 mol·mol^-1, 资源利用效率的变化主要受P_n的影响。温度通过影响植物N分配来改变P_n, 进而影响着资源利用效率, WUE与LUE显著正相关, 对构建荒漠区生态系统能量交换过程模型有重要意义。     

Spatio-temporal characteristics of vegetation water use efficiency and their relationships with climatic factors in alpine and subalpine area of southwestern China

水分利用效率(WUE)是深入理解生态系统水碳循环及其耦合关系的重要指标。为了揭示气候变化背景下区域尺度不同植被类型的响应和适应特征, 对中国西南高山亚高山地区2000-2014年的9种植被类型的WUE时空特征及其影响因素进行探究。该研究基于MODIS总初级生产力(GPP)、蒸散发(ET)数据和气象数据, 估算西南高山亚高山区植被WUE, 采用趋势分析及相关分析等方法, 分析了研究区植被WUE与气温、降水及海拔的关系。主要结果: (1)西南高山亚高山区2000-2014年植被WUE多年均值为0.95 g·m^-2·mm^-1, 整体呈显著增加趋势, 增速为0.011 g·m^-2·mm^-1·a^-1; 空间上WUE呈东南高西北低的分布, 85.84%区域的WUE呈增加趋势。(2)西南高山亚高山区各植被类型WUE多年均值表现为常绿针叶林>稀树草原>常绿阔叶林>有林草原>农田>落叶阔叶林>混交林>郁闭灌丛>草地; 时间上, 各植被类型WUE均呈上升趋势。(3)西南高山亚高山区89.56%区域的WUE与气温正相关, 92.54%区域的WUE与降水量负相关; 各植被类型中, 草地WUE与气温的相关性最高, 有林草原WUE与降水量的相关性最高。(4)西南高山亚高山区典型的地带性顶极植被常绿针叶林的WUE具有较强的海拔适应性及应对气候变化的能力。     

Season dynamics of carbon use efficiency and its influencing factors in the old-growth Abies fabri forest in Gongga Mountain,western Sichuan,China

碳利用效率(CUE)是植被生态系统的一个重要功能参数, 反映了植被生态系统的固碳能力, 适用于分析不同时间段内器官、个体和群落等不同层次的碳收支趋势, 因而有助于对陆地生态系统碳功能的确定与预测, 引起了广泛关注。该研究采用生物计量法, 测定和计算了川西贡嘎山东坡峨眉冷杉(Abies fabri)成熟林树木不同器官的呼吸与净生产力动态, 分析了乔木层及其各器官CUE动态及主要影响因子, 并估算了乔木层不同径级树木CUE。主要结果: (1)乔木层各器官月呼吸速率与温度呈正相关关系, 以细根月呼吸速率为最大; 不同径级树木年呼吸量无显著差异, 以小径级树木树干的年呼吸量为最小。(2)乔木层细根和树干月净初级生产力(NPP)均随温度增加而增加, 以细根月NPP为最大。小径级树木年NPP最大, 其针叶年NPP也显著高于中径级和大径级树木。(3)林分乔木层及其各器官CUE大多集中在0.30-0.60之间, 其中细根、树干CUE具有相似的月变化动态, 均随温度的升高而上升。不同径级树木CUE及树干和针叶CUE均随树木个体的增大而明显下降。(4)气温和土壤温度与乔木层树干和细根CUE呈正相关关系, 而降水量与针叶CUE呈负相关关系。细根CUE与树干CUE呈正相关关系,与针叶CUE呈负相关关系。峨眉冷杉成熟林乔木层CUE主要取决于树干和细根CUE。该研究证实了川西亚高山暗针叶成熟林仍具有较强的碳汇功能, 在区域碳储存和森林生态系统碳循环中发挥着极其重要的作用。     

粉垄耕作对黄淮海北部土壤水分及其利用效率的影响

连年旋耕导致犁底层上移、耕层变浅、水分利用效率（Water Use Efficiency, WUE）降低,严重制约作物丰收增产,尤其进一步激化缺水地区的农业用水供需矛盾。合理的土壤耕作是有效的解决途径,为此在黄淮海北部引入了粉垄这种新型深土耕作措施。以旋耕和深松为对照,设置了粉垄30 cm、粉垄50 cm、粉垄30 cm 地膜、粉垄50 cm 地膜、粉垄30 cm裸地、粉垄50 cm裸地等共8个处理,探讨不同耕作措施对土壤水分变化过程及WUE的影响。基于土壤湿度等值线图、土壤贮水消耗和WUE的分析可知,（1）与旋耕和深松相比,粉垄耕作后的耕层疏松深厚、土壤调蓄水分能力增强、总耗水量降低、WUE提高,其中粉垄各处理的总耗水量比旋耕和深松分别减少了12.2%―16.4%、10.2%―14.5%,产量WUE则分别提高了28.3%―50.6%、19.1%―39.7%;（2）粉垄的作业深度越深越利于降雨入渗和土壤水分调蓄,但总耗水量有所增加,WUE略有下降,其中总耗水量增加了5.0%,小喇叭口期和灌浆中期的叶片WUE分别下降1.6%和1.0%,产量WUE降低2.1%;（3）粉垄后覆膜克服了表土跑墒的缺点,减少了耗水量,进一步提高了土壤调蓄水分的能力和WUE,且作业深度越深,WUE提升越多,其中粉垄30 cm 地膜、粉垄50 cm 地膜的产量WUE分别比粉垄30 cm、粉垄50 cm提高了8.5%和17.3%,粉垄50 cm 地膜的小喇叭口期和灌浆中期的叶片WUE以及产量WUE分别比粉垄30 cm 地膜提高了8.3%、7.4%和5.9%。研究结果表明,这种新型耕作措施为打破犁底层、解决耕层变浅、提高水分利用效率提供了一种新的可行方法。     

贝壳堤岛旱柳光合效率的土壤水分临界效应及其阈值分级

为阐明黄河三角洲贝壳堤岛旱柳(Salix matsudana)叶片光合效率对土壤水分的适应机制, 明确其水分阈值效应, 以二年生旱柳为材料, 采用人工给水与自然耗水相结合获取系列水分梯度的方法, 测定分析贝壳砂生境下旱柳叶片光合效率参数对土壤水分的响应特征及其生产力分级。结果表明: 旱柳叶片净光合速率(P_n)、蒸腾速率(T_r)、水分利用效率(WUE)及光合光响应参数具有明显的水分临界效应。(1) P_n、T_r、WUE和潜在水分利用效率均随土壤水分的降低先升高后下降, 但各指标水分临界值表现不同步, 其中P_n水分气孔限制转折点和水分补偿点分别出现在相对含水量(W_r)为42.9%和14.4%时; P_n和T_r的水分饱和点为73.1%和68.9%, WUE水分高效点为80.1%; (2)水分胁迫下旱柳叶片具有明显的光抑制现象, 可通过减弱对光的利用来适应水分逆境。随土壤水分的增加, 表观量子效率(AQY)、光饱和点(LSP)和最大净光合速率(P_nmax)表现为先升高后降低, 但光补偿点(LCP)相反。P_n、AQY、LSP、P_nmax和暗呼吸速率(R_d)均表现为渍水胁迫明显高于干旱胁迫。W_r为69.1%时, LCP达到较低值(18.6 µmol∙m ^-2∙s^-1), AQY最高(0.05), 利用弱光能力较强。W_r为80.9%时, LSP达到最高(1775 µmol∙m ^-2∙s^-1), 光照生态幅最宽, 光能利用效率最高, 水分对光强的补偿效应显著; (3)采用临界值分类法确定出贝壳砂生境下旱柳光合效率的5级水分阈值, 73.1%_r<80.1%范围内为高产高效水, 此时旱柳具有较高的光合能力和高效生理用水特性。贝壳砂生境内旱柳表现出一定的耐水湿而不耐干旱的适应特性, 在干旱缺水的贝壳堤岛滩脊地带栽植时需充分考虑其水分环境。     

不同土壤水分条件下硅对紫花苜蓿水分利用效率及产量构成要素的影响

硅是地壳中含量仅次于氧的元素,植物不可能在无硅的环境中生长.通过盆栽试验研究了不同土壤水分条件下硅对紫花苜蓿(Medicago sativa)水分利用效率及产量构成要素的影响.结果表明,在土壤含水量为田间最大持水量的35%和80%的条件下,硅对紫花苜蓿水分利用效率和生物量没有显著影响,而在土壤含水量为田间最大持水量的50%和65%的条件下,硅显著提高了紫花苜蓿水分利用效率和生物量(p<0.05),紫花苜蓿水分利用效率的增幅分别为35%和20%,主要途径为降低叶片蒸腾速率;紫花苜蓿生物量增幅分别为41%和14%,主要通过促进分枝和株高生长,而不受单枝生物量的影响.因此硅对紫花苜蓿水分利用效率和生物量的有益作用与其生长环境中的土壤水分条件密切相关.     

2000-2017年新疆天山植被水分利用效率时空特征及其与气候因子关系分析

水分利用效率(WUE)是衡量生态系统碳水循环耦合程度的重要指标, 估算新疆天山及南北主要绿洲的植被WUE并分析其时空变化规律, 探索其影响因素, 对该区域生态系统保护、农业水资源的合理利用与开发等方面具有重要的意义。基于MODIS遥感数据、气象数据和土地利用类型数据, 分析新疆天山近18年植被WUE时空变化特征以及与气候因子的关系。结果表明: (1) 2000-2017年新疆天山植被WUE变化范围为0.84-1.34 g·mm ^-1·m ^-2, 多年均值为1.11 g·mm ^-1·m ^-2, 整体呈减少趋势, 变化率为-0.014 1 g·mm ^-1·m ^-2·a ^-1; 空间分布具有较强的垂直地带性规律, 1 000 m以上的区域随着海拔的升高而减少。(2)植被WUE年内变化呈单峰型变化格局, 具有明显的季节性差异, 表现为: 夏季>春季>秋季>冬季。(3)相关分析和统计结果表明, 新疆天山植被WUE时空变化受到气温影响的区域占33.23%, 受降水影响的区域占8.57%, 受气温和降水综合强影响的区域占5.63%, 气温和降水综合弱影响的区域占13.13%; 因此气候因素中气温在新疆天山植被WUE的变化中起到主导作用。(4)水田与旱地水分利用效率随着时间变化呈持续减少趋势, 并且这些区域基本上受到非气候因子的影响, 说明当地人类活动存在不合理性。     

黄土高原不同降水区休闲期土壤贮水效率及其对冬小麦水分利用的影响

土壤贮水是影响黄土高原冬小麦生产力的最重要因素,分析休闲期贮水效率对有效利用水资源具有重要意义。利用黄土高原旱作区4个农业气象观测站土壤水分长期观测资料和冬小麦产量资料,探讨了不同气候区休闲期土壤贮水和耗水特征及对冬小麦水分利用的影响。结果表明:(1)黄土高原旱作区休闲期1 m土层多年平均贮水量半湿润区为9 1mm,贮水效率为30.7%,半干旱区为32 mm,贮水效率为16.5%,且不同降水年型、不同气候区休闲期贮水量和贮水效率差别较大;(2)黄土高原旱作区1 m土层贮水量从土壤解冻至封冻期间基本呈波谷型分布,休闲期为主要贮水阶段,冬小麦返青—开花期为休闲期贮水的主要消耗阶段。半湿润区休闲期土壤贮水量主要消耗在起身至开花期,半干旱区主要消耗在越冬至拔节期;(3)黄土高原旱作区播种—越冬前消耗0—40 cm土层贮水,越冬-起身期各土层贮水量都有消耗,起身—开花期半湿润区主要消耗0—40 cm土层贮水量、半干旱区主要消耗0—60 cm土层贮水量,开花—成熟期半湿润区主要消耗40 mm以下土层贮水量、半干旱区主要消耗60 cm以下土层贮水量;(4)黄土高原休闲期贮水效率与冬小麦产量显著相关,半湿润区水分利用效率远高于半干旱区。黄土高原不同区域降水时空分布不均和土壤贮水能力的差异是造成不同气候区休闲期水分贮存差异的主要原因,通过调整耕作方式、水肥管理、种植结构进一步实现冬小麦增产和水分高效利用。