Studies on water-vapor flux characteristic and the relationship with environmental factors over a planted coniferous forest in Qianyanzhou Station

Water-vapor flux over a planted coniferous forest ecosystem near Qianyanzhou, Jiangxi Province, China, was continuously measured with the eddy covariance technique for 2004. How environmental variables, including net radiation, air temperature, and soil moisture, affected water-vapor flux variation was studied in detail. Results showed that winter had the lowest monthly water-vapor flux value, whereas summer had the highest. The diurnal variation of water-vapor flux showed different patterns for clear and cloudy days. The annual total evapotranspiration was 736.1 mm. Regression analysis showed that daily water-vapor flux was significantly correlated with net radiation, air temperature, soil temperature, and soil heat flux on both clear and cloudy days, all in quadratic relationships. Stepwise regression analysis demonstrated that a different set of environmental factors controlled water-vapor flux on days with different weather conditions. From this study, it was clear that these environmental variables, especially net radiation and soil temperature, regulated water-vapor flux over the planted coniferous ecosystem.     

草坪蒸散研究进展

草坪蒸散量是指导草坪合理灌溉的重要指标。自20世纪中叶以来,以节水为目的的草坪蒸散研究越来越受到人们的重视。草坪蒸散研究的内容主要包括相互关联的3个方面：草坪蒸散率的测定与比较,草坪蒸散机制的研究和草坪节水灌溉的研究。草坪蒸散率在不同草种间存在不同程度的差异。暖季型草坪草和冷季型草坪草相比普遍具有较低的草坪蒸散率。暖季型草坪草的夏季日平均最大蒸散率为3.0-9.0mm,而冷季型草坪草的为3.6-12.6mm。密度大,生长缓慢的杂交狗牙根、结缕草、野牛草和假俭草的耗水量很低,细羊茅的耗水量中等,而草地早熟禾、高羊茅、1年生早熟禾和匍匐剪股颖的耗水量很大。同种草坪草的不同品种的草坪蒸散率存在差异。有些草种内品种间差异的程度高达64％,不亚于种间。冷季型草坪草品种的蒸散率与留茬量显著相关,但环境因子对品种的蒸散率影响很大,品种的蒸散特性不稳定。与冷季型草坪草相比,暖季型草坪草的种内品种间蒸散率的差异和谐较小。草坪的冠层是草坪蒸散的一个主要外部条件,具有较低蒸散率的草坪往往具备高冠层阻力和低叶面积。土壤水分不受限制时,不同的暖季型草坪草种间的草坪蒸散率与叶片背面的气孔密度显著负相关。但在种内品种间没有表现出相关性。冷季型草坪草种间和种内的叶片气孔数目和草坪的蒸散率不相关。草坪的作物系数是确定最适灌溉量的关键参数,线性梯度灌溉系统比小型蒸渗仪提供的草坪作物系数更接近于实际。当草坪的质量维持在可接受的水平时,以彭曼公式推测的苜蓿的潜在蒸散量为参照蒸散量,高羊茅草坪的作物系数为0.60-0.80,草地早熟禾草坪的作物系数为0.50-0.80。基于草坪冠层温度的作物水分胁迫系数（CWSI）是确定灌溉时机的比较合理的指标。CWSI在不同的季节和不同的草种间表现不稳定,并且这种方法的节水效果也表现不一,还处于发展阶段。草坪蒸散的研究在我国几乎处于空白状态,开展我国的草坪蒸散研究,寻求适合的草坪节水途径已势在必行。     

Ecosystem-scale flux of CO2 from a restored vacuum harvested peatland

At the ecosystem scale, the water and gasexchange processes are strongly coupled.Drainage and removal of a peatland'ssurface vegetation cover for peatharvesting alters its hydrology, and as adirect consequence the carbon budget.Previous studies have measuredpeatland-atmosphere carbon exchange usingthe chamber methodology. These studies haveindicated that the spatial and temporalvariability is large, suggesting the needfor continuous ecosystem-scalemeasurements. This paper presents ecosystemscale measurements of the atmosphericexchange of water and carbon dioxide(CO₂) from a restored vacuum-harvestedpeatland in eastern Québec, Canada,using the eddy correlation measurementapproach.Results indicate that the adoptedrestoration practices reduce the loss ofwater from the peat. Evapotranspirationfrom the restored site was 20 and 25% lessthan that from an adjacent abandonedcomparison site in 2000 and 2001respectively. However, CO₂ emissionsremain large during non-snow periods (478and 468 g C m^-2 in 2000 and 2001,respectively). The blockage of drainageditches and the existence of a mulch coverat the site keep the moisture and thermalconditions more or less constant.Consequently, the CO₂ flux, which ispredominantly soil respiration, is stronglycontrolled by peat temperaturefluctuations.     

森林蒸散模型参数的确定

以长白山阔叶红松林为研究对象,利用长白山阔叶红松林气象观测塔安装的常规气象梯度观测系统、开路涡动相关系统的观测数据,依据空气动力学基本理论与能量平衡方程建立了森林蒸散机理模型,确定了模型参数,即风速廓线稳定度订正函数ψm、温度廓线稳定度订正函数ψh和零平面位移高度d。其中,研究地的零平面位移高度d为17．8m,是平均冠层高度(26m)的0．68。同时,给出了ψm和ψh随梯度理查逊数Ri变化的数学表达式。     

Effects of aggregated classifications of forest composition on estimates of evapotranspiration in a northern Wisconsin forest

Forest management presents challenges to accurate prediction of water and carbon exchange between the land surface and atmosphere, due to its alteration of forest structure and composition. We examined how forest species types in northern Wisconsin affect landscape scale water fluxes predicted from models driven by remotely sensed forest classification. A site‐specific classification was developed for the study site. Using this information and a digital soils database produced for the site we identified four key forest stand types: red pine, northern hardwoods, aspen, and forested wetland. Within these stand types, 64 trees representing 7 species were continuously monitored with sap flux sensors. Scaled stand‐level transpiration from sap flux was combined with a two‐source soil evaporation model and then applied over a 2.5 km × 3.0 km area around the WLEF AmeriFlux tower (Park Falls, Wisconsin) to estimate evapotranspiration. Water flux data at the tower was used as a check against these estimates. Then, experiments were conducted to determine the effects of aggregating vegetation types to International Geosphere– Biosphere Program (IGBP) level on water flux predictions. Taxonomic aggregation resulting in loss of species level information significantly altered landscape water flux predictions. However, daily water fluxes were not significantly affected by spatial aggregation when forested wetland evaporation was included. The results demonstrate the importance of aspen, which has a higher transpiration rate per unit leaf area than other forest species. However, more significant uncertainty results from not including forested wetland with its high rates of evaporation during wet summers.     

黄土区防护林主要造林树种水分供需关系研究

通过3年的定位观测,分析了晋西黄土区护林主要造林树种刺槐和油松寺地供水与耗水关系,油松和刺槐林地4－6月林地水分消耗大于供给,供耗矛盾突出;雨季水分供应充足,土壤贮水增加;相同条件下密度大的林分耗水量较大,在干旱季节和年份,相同条件下,密度大的林分林地有效供水较少,林地水分亏损较为严重;不同坡向的水分缺量大小顺序为阳坡＞半阳坡＞阴坡,本文引入耗水特性系数来表示林分耗水的大小和需水量的满足程度,研究表明,用耗水特性系数表示林木规律和水分供耗关系是适合的衡量指标。     

基于全球气候模式集合的鄱阳湖流域未来潜在蒸散量及其干旱效应研究

鄱阳湖流域近年来旱涝灾害频发,原有的水量平衡被打破。因此,开展鄱阳湖地区潜在蒸散量及干旱效应研究具有重要意义。潜在蒸散量（Reference Evapotranspiration,ET₀）是评价区域水资源配置和计算干旱指数的重要指标。以我国的鄱阳湖流域为研究区,依托统计降尺度模型,基于站点观测数据、气候模式数据以及美国环境中心再分析数据,运用遗传算法构建多模式集合,模拟未来情景下流域潜在蒸散量和干旱指数（Drought Index,DI）时空演变特征。结果表明：基于遗传算法构建的模式集合较单一气候模式或等权模式集合,模拟性能佳;RCP4.5、8.5情景下流域ET₀均呈上升趋势,ET₀变化的第一主周期分别为20年和4年,流域ET₀未来空间变化特征表现为东高西低;RCP8.5情景下,鄱阳湖流域DI在年际上呈显著上升趋势,9-11月是干旱风险防范的关键时期;流域年DI变化的主周期为8年,流域的中东部地区将是未来干旱风险防范的重点区域。本研究为认识区域尺度下气候变化对潜在蒸散量的影响提供借鉴,同时为政府部门科学应对鄱阳湖流域未来时期可能出现的旱情提供的决策支持。     

中国典型森林生态系统土壤水分时空分异及其影响因素

森林土壤水分作为物质与能量循环的载体影响林木生长与发育,并通过影响水分在陆气之间的循环与分配影响区域气候。基于我国不同气候带的9个森林生态系统定位观测站的长期观测数据,探究了2005-2016年中国典型森林生态系统土壤水分的空间分异及其时间动态,并进一步分析了影响其时空分异的环境因素。主要研究结论如下：（1）9个森林生态系统的土壤水分多年均值介于12.45%-36.30%之间,空间上呈现中温带、亚热带、热带土壤水分较高,暖温带土壤水分较低的分布特征。降水蒸散差（降水与蒸散的差值）可以解释我国森林生态系统土壤水分空间分异的62%（P<0.05）;（2）我国北部与东部季风区森林区域土壤水分呈上升趋势,降水上升是主因,其中暖温带北京、南亚热带鼎湖山与鹤山森林土壤水分上升趋势显著,增幅分别为0.67%/a、1.72%/a与0.69%/a;西南地区森林生态系统土壤水分呈下降趋势,该趋势由降水下降与蒸散上升共同导致,其中中亚热带贡嘎山及哀牢山森林生态系统土壤水分下降趋势显著,降幅分别为-1.77%/a与-0.94%/a;土壤水分时间分异与降水蒸散差的相关性最高（R=0.59,P<0.01）;（3）土壤水分呈下降趋势的森林生态系统中,春季土壤水分变化主导了年际变化,土壤水分上升的森林生态系统中,年际变化则是由秋、冬季主导。（4）与ERA-interim土壤水分再分析数据比较得出,两者在空间格局与变化趋势上均具有较高的一致性。CERN土壤水分观测数据反映了无人为干扰的自然条件下森林土壤-植被-气候之间的反馈作用,可为基于模型的土壤水分研究提供长时序的验证数据。     

川西雅江地区过去567年3—8月干旱变化的树轮重建

使用零信号去趋势法建立了四川甘孜州拉日玛采点川西云杉标准化树轮宽度年表。结果表明: 云杉树轮年表与雅江3—8月一个月时间尺度的标准化降水蒸散指数(SPEI1)间存在显著正相关。由树轮年表当年与次年序列重建了雅江地区1442—2008年3—8月SPEI1指数变化,方差解释量达42.8%。重建序列主要揭示了历史时期SPEI1的低频变化。川西雅江地区3—8月SPEI1在过去567年中存在1442—1465年、1516—1601年和1836—2008年3个偏湿阶段,位于其间的为2个偏干阶段;重建序列在1455—1762年间存在显著变干趋势,而1833—1950年具有显著变湿趋势,1959—2008年的变湿趋势最为明显;3—8月SPEI1重建值在1512、1733、1767、1831、1941、1957和1975年发生了从干旱向湿润的突变,而在1684年与1961年则相反。与周边气候重建序列的对比显示,川西雅江地区3—8月SPEI1重建序列的低频变化与青藏高原东北部年降水量和祁连山东段北坡SPEI05指数的变化具有一定相似性。该重建序列对青藏高原东部及青海南部的3—8月SPEI1变化具有较好的代表性。