Petiole mechanics,light interception by Lamina,and “Economy in Design”

Summary Computer simulations were used to assess the influence of palmate leaf morphology, decussate phyllotaxy, and the elastic moduli of petioles on the capacity of turgid and wilted twigs ofAesculus hippocastanum to intercept direct solar radiation. Leaf size, morphology, orientation, and the Young's and shear moduli (E and G) of petioles were measured and related to leaf position on 8 twigs whose cut ends were placed in water (turgid twigs) and 8 twigs dried for 8 h at room temperature (wilted twigs). Petioles mechanically behaved as elastic cantilevered beams; the loads required to shear petioles at their base from twigs were correlated with the cross-sectional areas of phyllopodia but not with petiole length or tissue volume. Empirically determined morphometric and biomechanical data were used to construct average turgid and wilted twigs. The diurnal capacity to intercept direct sunlight for each was simulated for vertically oriented twigs for 15 h of daylight, 40° N latitude. The daily integrated irradiance (DII) of the wilted twig was roughly 3% less than that of the otherwise comparable twig bearing turgid leaves. Simulations indicated that the orientation of turgid leaves did not maximize DII. More decumbent (wilted) petioles increased DII by as much as 4%. Reduction in the girth, E, or G of petioles, or an increase in petiole length or the surface area of laminae (with attending increase in laminae weight), increased petiolar deflections and DII. Thus, the mechanical design of petioles ofA. hippocastanum was found not to be economical in terms of investing biomass for maximum light interception.     

Evaporation of intercepted precipitation from fruit litter of Liquidambar styraciflua L. (sweetgum) in a clearing as a function of meteorological conditions

Interception of precipitation by fruit litter is a poorly understood component of the hydrologic cycle in forested ecosystems. Even less well understood is the effect of meteorological conditions on the evaporation of precipitation intercepted by forest litter. This study sought to examine the influence of meteorological conditions on the evaporation of intercepted precipitation by fruit litter from Liquidambar styraciflua L. (sweetgum) by deriving and calibrating a regression model to estimate evaporation from the fruit litter that may be of potential use to forest and watershed managers. Data on evaporative losses from the fruit litter used to derive and calibrate the statistical model were acquired through a larger field experiment conducted from mid November 2002 through April 2003. Results from the forward stepwise least squares multiple regression model demonstrated that evaporative losses from the fruit litter were estimated with a high degree of accuracy based on the amount of water stored, solar radiation inputs, and vapor pressure deficit (adjusted R²=0.836, F=82.28, P<0.00001). The amount of water stored in the fruit litter explained the highest proportion of variance in the regression model. Storm to storm comparisons also highlighted the importance of solar radiation and wind speed in determining evaporation from the fruit litter. The regression model potentially may be used in conjunction with a canopy interception model to predict interception losses from L. styraciflua dominated forests and plantations.     

川西亚高山不同暗针叶林群落类型的冠层降水截留特征

在林分和小流域尺度上,应用模型研究了四川卧龙亚高山暗针叶林冠层的降水截留特征.结果表明:生长季节(5—10月),箭竹-岷江冷杉原始林冠层截留系数在33%～72%之间,平均48%;冠层截留量与降水量之间呈显著的线性关系,截留系数与降水量之间呈负指数函数关系;试验小流域内,植被冠层最大截留量的平均值为1.74mm,不同林分间的差异显著,其顺序为藓类-箭竹-岷江冷杉林>草类-箭竹-岷江冷杉林>藓类-杜鹃-岷江冷杉林>草类-杜鹃-岷江冷杉林>杜鹃灌丛;冠层最大截留量与叶面积指数(LAI)之间呈极显著的线性关系;冠层截留量、冠层最大截留量、附加截留量分别占同期降水量的39%、25%和14%.所选模型对整个生长季平均截留量的模拟效果较好,相对误差为9%～14%.     

Atmospheric carbon dioxide and fertilizer nitrogen effects on radiation interception by rice 1

In order to predict the potential impacts of global change, it is important to understand the impact of increasing global atmospheric [CO₂] on the growth and yield of crop plants. The objectives of this study were to determine the interaction of N fertilization rates and atmospheric [CO₂] on radiation interception and radiation-use efficiency of rice (Oryza sativa L. cv. IR72) grown under tropical field conditions. Rice plants were grown inside open top chambers in a lowland rice field at the International Rice Research Institute in the Philippines at ambient (about 350 μmol mol^-1) or elevated (about 600 μmol mol^-1 during the 1993 wet season and 700 μmol mol^-1 during the 1994 dry season) in combination with three levels of applied N (0, 50 or 100 kg N ha^-1 in the wet season; 0, 90 or 200 kg N ha-1 in the dry season). Light interception was not directly affected by [CO₂], but elevated [CO₂] indirectly increased light interception through increasing total absorbed N. Plant N requirement for radiation interception was similar for rice grown under ambient [CO₂] or elevated [CO₂] treatments. The conversion efficiency of intercepted radiation to dry matter, radiation-use efficiency (RUE), was about 35% greater at elevated [CO₂] than at ambient [CO₂]. The relationship between leaf N and RUE was curvilinear. At ambient [CO₂], RUE was fairly stable across levels of leaf N, but leaf N less than about 2.5% resulted in lower RUE for plants grown with elevated [CO₂] than for plant grown at ambient [CO₂]. Decreased leaf N with increased [CO₂], therefore decreased RUE of rice plants grown at elevated [CO₂]. When predicting responses of rice to elevated [CO₂], RUE should be adjusted with a decrease in leaf N. This revised version was published online in June 2006 with corrections to the Cover Date.     

紫椴幼苗的叶片运动与光截获*

从水平、垂直方向和叶片的旋转运动等角度对紫椴（Tilia amurensis)幼苗的叶片运动特征进行了描述,并就枝条、叶片空间取向及叶片运动对叶片截获光合有效辐射的影响进行了讨论。结果表明：紫椴幼苗通过叶片运动有效地调节了对光合有效辐射的截获,提高了早、晚叶片光合作用旺盛时间段内的光合有效辐射截获量,在一定程度上减缓了中午强光、高温对叶片生理活动的危害。由于活跃的叶片运动、适度遮荫环境中幼苗的西部叶片所截获的光合有效幅射接近于全光环境中个体各向叶平均截获量,这为该环境中紫椴幼苗叶片在全天保持较旺盛的光合作用提供了能量保障。枝条和叶片的空间取向决定了紫椴幼苗叶片的空间分布;适度遮荫环境中个体的东西向叶片所占比例最高,全光环境中个体次之,强度遮荫个体枝条与叶片的空间分布趋于随机化。这意味着强度遮荫环境中的紫椴幼苗叶片对太阳辐射截获的调节能力较差,这可能是该环境中紫椴个体生产力较低的重要原因之一。     

模拟降雨条件下玉米植株对降雨再分配过程的影响

为系统测定玉米(Zea mays)不同生长阶段的穿透雨、茎秆流和冠层截留,采用室内模拟降雨法测定了不同降雨强度、不同叶面积指数玉米冠下穿透雨和茎秆流,采用喷雾法测定了玉米不同生长阶段的冠层截留。对其进行了量化分析,并探讨了三者与玉米叶面积指数和降雨强度的关系,阐明了玉米冠下穿透雨的空间分布特征。结果表明:玉米冠下穿透雨量占冠上总降雨量比例为30.97%—94.02%,平均为63.92%;茎秆流量占降雨量比例的变化范围为5.68%—75.70%,平均为35.28%;冠层截留量在其全生育期内变化范围为0.02—0.43 mm,平均为0.16 mm,所占总降雨量比例最大仅为1%。随玉米生长,穿透雨量逐渐降低,茎秆流量和冠层截留量逐渐增加。穿透雨与茎秆流呈现此消彼长的关系,其中穿透雨率平均由93.55%降至36.23%;茎秆流率平均由5.98%增加至70.42%。降雨强度与穿透雨量和茎秆流量呈正相关关系,但是二者占总降雨量的比例与降雨强度关系不显著(P0.05)。随着玉米生长,穿透雨冠下空间分布由均匀逐渐趋向于不均匀,使降雨经过冠层后趋于向行中汇集,但在玉米生长后期,集中于行中的穿透雨量也因叶片衰败而随之降低。揭示了玉米对降雨的再分配作用特征,可为农田水分有效利用、农田生态水文过程机理和坡耕地土壤侵蚀防治提供理论依据。     

Influence of sampling effort on saproxylic beetle diversity assessment: implications for insect monitoring studies in European temperate forests

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