Comparison of interception,forest floor evaporation and transpiration in Pinus radiata and Eucalyptus globulus plantations          下载免费PDF全文

R. G. Benyon  T. M. Doody 《水文研究》2015,29(6):1173-1187

Studies of evapotranspiration (ET) processes in forests often only measure one component of total ET, most commonly interception. This study examined all three components of annual ET (interception, evaporation from the forest floor and transpiration) and the correlations between them at 18 plantation forest sites in two species. All plantations had closed canopies, and sparse or no understorey. Single‐sided leaf area index averaged 3.5 (standard deviation ±0.5) in Eucalyptus globulus Labill. and 6.1 (±0.8) in Pinus radiata D.Don. Measurements included annual totals of rainfall in the open and under the canopy, stem flow (four sites only), evaporation from the forest floor and transpiration by the overstorey. Interception (I) averaged 19% (±4.9) of annual rainfall in E. globulus compared with 31% (±11.1) in P. radiata. However, higher annual interception in P. radiata did not result in higher total ET because annual evaporation from the forest floor (E) averaged 29% (±4.9) of rainfall in E. globulus but only 15% (±3.5) in P. radiata. Hence, the relative contribution of annual I plus E to ET did not differ significantly between the two species, averaging 48% (±7.3) of annual rainfall in E. globulus compared with 46% (±11.8) in P. radiata. As reported previously, transpiration did not differ significantly between the two species either, but was strongly related to depth‐to‐groundwater. In closed canopy plantations, mean annual ET did not differ between the two species. We conclude that when grown in plantations under similar soil and climatic conditions, conifer and broad‐leaved tree species can have similar annual ET, once the canopy of the plantation has closed. Lower average annual interception in broad‐leaved trees was offset by higher soil evaporation. These results highlight the importance of measuring all components of ET in studies of vegetation water use. Copyright © 2014 John Wiley & Sons, Ltd.  相似文献   

A multi‐year study of rainfall and soil water controls on Scots pine transpiration under Mediterranean mountain conditions     

P. Llorens  R. Poyatos  J. Latron  J. Delgado  I. Oliveras  F. Gallart 《水文研究》2010,24(21):3053-3064

This study is focused on the analysis of the relationship between sap‐flow‐derived transpiration measured in a Scots pine stand in the Vallcebre research catchments (NE Iberian Peninsula) and meteorological and rainfall data. The first part of the study is focused on the analysis of temperature and rainfall anomalies. Then, the Scots pine transpiration response to inter‐annual rainfall variability, soil water stress and water table depth variations during the period 1997–2000 is analysed. This period includes the extremely dry year of 1998, which allows us to infer the response of Scots pine transpiration to severe droughts. Scots pine transpiration during the summer presented a high inter‐annual variability, largely related to rainfall amounts. Daily transpiration during dry summers was 40% of the transpiration of a summer day with average rainfall. Moreover, during dry summers, transpiration rates were not fully recovered even after significant rainfall events. The analysis of the dependence of Scots pine transpiration on available water indicated the strong limitation on transpiration induced by water content in the whole soil profile as well as by water table position. Under these drought conditions, a reduction of runoff and deep water stores was observed at the catchment scale, suggesting that the predicted increase in the frequency of severe summer droughts may threaten the current role of Mediterranean mountain catchments as suppliers of water resources for lowland areas. Copyright © 2010 John Wiley & Sons, Ltd.  相似文献   

Flood forecasting with a watershed model: a new method of parameter updating     

XIAOLIU YANG  CLAUDE MICHEL 《水文科学杂志》2013,58(4):537-546

Abstract

Flood forecasting is of prime importance when it comes to reducing the possible number of lives lost to storm-induced floods. Because rainfall-runoff models are far from being perfect, hydrologists need to continuously update outputs from the rainfall-runoff model they use, in order to adapt to the actual emergency situation. This paper introduces a new updating procedure that can be combined with conceptual rainfall-runoff models for flood forecasting purposes. Conceptual models are highly nonlinear and cannot easily accommodate theoretically optimal methods such as Kalman filtering. Most methods developed so far mainly update the states of the system, i.e. the contents of the reservoirs involved in the rainfall-runoff model. The new parameter updating method proves to be superior to a standard error correction method on four watersheds whose floods can cause damage to the greater Paris area. Moreover, further developments of the approach are possible, especially along the idea of combining parameter updating with assimilation of additional data such as soil moisture data from field measurements and/or from remote sensing.  相似文献   

The canopy conductance of a boreal aspen forest,Prince Albert National Park,Canada     

P. D. Blanken  T. A. Black 《水文研究》2004,18(9):1561-1578

Annual fluxes of canopy‐level heat, water vapour and carbon dioxide were measured using eddy covariance both above the aspen overstory (Populus tremuloides Michx.) and hazelnut understory (Corylus cornuta Marsh.) of a boreal aspen forest (53·629 °N 106·200 °W). Partitioning of the fluxes between overstory and understory components allowed the calculation of canopy conductance to water vapour for both species. On a seasonal basis, the canopy conductance of the aspen accounted for 70% of the surface conductance, with the latter a strong function of the forest's leaf area index. On a half‐hour basis, the canopy conductance of both species decreased non‐linearly as the leaf‐surface saturation deficits increased, and was best parameterized and showed similar sensitivities to a modified form of the Ball–Berry–Woodrow index, where relative humidity was replaced with the reciprocal of the saturation deficit. The negative feedback between the forest evaporation and the saturation deficit in the convective boundary layer varied from weak when the forest was at full leaf to strong when the forest was developing or loosing leaves. The coupling between the air at the leaf surface and the convective boundary layer also varied seasonally, with coupling decreasing with increasing leaf area. Compared with coniferous boreal forests, the seasonal changes in leaf area had a unique impact on vegetation–atmosphere interactions. Copyright © 2004 John Wiley & Sons, Ltd.  相似文献   

土壤蒸发和植被蒸腾遥感估算与验证   总被引：1，自引：0，他引：1  

宋立生  刘绍民  徐同仁  徐自为  马燕飞 《遥感学报》2017,21(6):966-981

地表蒸散发是土壤—植被—大气系统中能量和水循环的重要环节,它包括土壤、水体和植被表面的蒸发,以及植被蒸腾。随着地表参数多源遥感产品的快速发展,利用不同地表参数遥感产品估算地表蒸散发以及其组分土壤蒸发和植被蒸腾成为日常监测越来越便利,监测尺度已从单站扩展到田块、区域乃至全球。目前地表蒸散发双层遥感估算模型按照建模机理的不同可分为:系列模型、平行模型、基于特征空间的模型、结合传统方法的模型以及数据同化方法。本文从模型构建物理机制、模型驱动数据以及模型输出结果验证等方面总结了上述模型的发展历史和现状,并指出在模型结构与参数化方案的优化、高分辨率模型驱动数据的发展、土壤蒸发和植被蒸腾像元尺度"地面真值"的获取等方面都仍需进一步完善。  相似文献   

Hydraulic redistribution and hydrological controls on aspen transpiration and establishment in peatlands following wildfire   总被引：1，自引：0，他引：1  

Midori Depante  Matthew Q. Morison  Richard M. Petrone  Kevin J. Devito  Nicholas Kettridge  James M. Waddington 《水文研究》2019,33(21):2714-2728

In the sub‐humid Western Boreal Plains of Alberta, where evapotranspiration often exceeds precipitation, trembling aspen (Populus tremuloides Michx.) uplands often depend on adjacent peatlands for water supply through hydraulic redistribution. Wildfire is common in the Boreal Plains, so the resilience of the transfer of water from peatlands to uplands through roots immediately following wildfire may have implications for aspen succession. The objective of this research was to characterize post‐fire peatland‐upland hydraulic connectivity and assess controls on aspen transpiration (as a measure of stress and productivity) among landscape topographic positions. In May 2011, a wildfire affected 90,000 ha of north central Alberta, including the Utikuma Region Study Area (URSA). Portions of an URSA glacio‐fluval outwash lake catchment were burned, which included forests and a small peatland. Within 1 year after the fire, aspen were found to be growing in both the interior and margins of this peatland. Across recovering land units, transpiration varied along a topographic gradient of upland midslope (0.42 mm hr^?1) > upland hilltop (0.29 mm hr^?1) > margin (0.23 mm hr^?1) > peatland (0.10 mm hr^?1); similar trends were observed with leaf area and stem heights. Although volumetric water content was below field capacity, P. tremuloides were sustained through roots present, likely before fire, in peatland margins through hydraulic redistribution. Evidence for this was observed through the analysis of oxygen (δ¹⁸O) and hydrogen (δ²H) isotopes where upland xylem and peat core signatures were ?10.0‰ and ?117.8‰ and ?9.2‰ and ?114.0‰, respectively. This research highlights the potential importance of hydraulic redistribution to forest sustainability and recovery, in which the continued delivery of water may result in the encroachment of aspen into peatlands. As such, we suggest that through altering ecosystem services, peatland margins following fire may be at risk to aspen colonization during succession.  相似文献   

黑河下游绿洲植被优势种生物量空间分布及蒸腾耗水估算   总被引：2，自引：1，他引：1  

张华  张兰  赵传燕  彭守璋  郑祥霖 《地理科学》2014,34(7):876-881

基于典型样点试验,建立了研究区植被优势种柽柳、胡杨与苦豆子地上生物量与其生态参数关系模型;利用高分辨率遥感影像Geoeye-1对植被优势种进行分类得到生态参数,实现了其地上部分生物量空间分布估算;最后利用生物量与蒸腾系数关系,估算植被优势种蒸腾耗水。结果显示：植被优势种总生物量为2.53×10⁶t,河流距离对生物量影响显著。根据试验测得的植被优势种蒸腾系数估算出总蒸腾耗水量为10.89×10⁸t,柽柳、胡杨与苦豆子所占比例分别为12.94%,82.93%与4.13%。  相似文献   

半干旱区春小麦受条锈菌侵染后光合作用和蒸腾作用的变化规律   总被引：3，自引：0，他引：3  

赵鸿王润元  马鹏里朱建兰 《干旱气象》2004,22(4):56-59

采用美国CI-301PS型便携式光合作用测定仪,对半干旱区大田春小麦的健康叶片和受条锈菌侵染后病叶的光合作用和蒸腾作用进行活体监测。结果表明：在干旱环境下。受条锈菌侵染后小麦叶片的光合作用和蒸腾作用发生了明显变化,其光合速率比健叶明显降低,而病叶细胞间隙CO2浓度、气孔导度、蒸腾速率等有所升高,且日变化随病叶严重度的不同而明显不同。受干旱和病原物侵染的双重胁迫,小麦叶片的光合效率显著降低,水分利用率也随之下降。不仅与叶绿素含量的明显下降有关,而且与干旱造成的水分亏缺对小麦体内生理生化代谢造成损伤,碳同化过程受到抑制等有着密切的关系。  相似文献   

塔里木沙漠公路防护林植物沙拐枣气体交换特性对干旱胁迫的响应   总被引：5，自引：3，他引：2  

闫海龙  张希明  许浩  姚世军 《中国沙漠》2007,27(3):460-465

利用LI-6400光合作用系统测定了干旱胁迫和正常灌溉两种处理下,塔里木沙漠公路防护林中乔木状沙拐枣（Calligonum arborescens）净光合速率、蒸腾速率以及水分利用效率等气体交换特性的日变化及季节变化动态。分析得出：两种处理下沙拐枣净光合速率在不同生长季的日变化动态均为单峰型;蒸腾速率除8月干旱胁迫处理下表现出微弱的双峰变化外,其余也为单峰型;干旱胁迫显著降低了沙拐枣的光合能力和蒸腾能力,而且随着干旱胁迫时间的持续,净光合速率和蒸腾速率降低的幅度在不断增加。干旱胁迫所引起的土壤含水量的降低和植物体内的水分亏缺并没有提高沙拐枣的水分利用效率,反而使其有着明显的下降。但尽管如此,沙拐枣在持续干旱的情况下依然能够维持生长,它通过适当降低蒸腾减少水分散失和降低光补偿点以提高弱光利用能力等方法来进行必要的光合积累,这说明沙拐枣有着极强的耐旱能力和适应极端环境的本领,而且通过沙拐枣在长期干旱胁迫处理下的顽强表现,也充分说明沙漠公路防护林在人工管理过程中依然存在着进一步节水的可能性。  相似文献   

沙冬青对土壤水分变化的生理响应   总被引：40，自引：17，他引：23  

冯金朝  周宜君  周海燕  张景光 《中国沙漠》2001,21(3):223-226

沙冬青(Ammopiptanthus mongolicus(Maxim))是生长在沙漠地区及干旱荒漠区的常绿灌木,在干旱环境条件下形成了独特的生物学特性与生理生态适应性。研究结果表明,灌水前后沙冬青的光合作用和蒸腾作用变化很大。在土壤干旱时,其光合速率变化的日平均值仅为2.14μmol·m^-2·s^-1,其最大值仅为3.5μmol·m^-2·s^-1;此时叶片蒸腾速率变化的日平均值为7.03mmol·m^-2·s^-1,最大值为10.5mmol·m^-2·s^-1。而在土壤水分充足时,其光合强度和蒸腾强度明显提高,叶片光合速率的日平均值为5.97μmol·m^-2·s^-1,最大值为8.5μmol·m^-2·s^-1,均为干旱时的2倍以上;此时叶片蒸腾速率的日平均值为23.5mmol·m^-2·s^-1,最高值达30.1mmol·m^-2·s^-1,均为干旱时的3倍左右。分析沙冬青叶片气孔的调节作用与叶片的光合作用和蒸腾作用的关系可知,其气孔活动与蒸腾作用保持较为密切的相关关系,而其光合作用虽然也受气孔活动的影响,更主要是与其自身的生理生化特性有关。  相似文献