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。     

降雨能量对东北典型黑土区土壤溅蚀的影响

溅蚀特征研究可揭示溅蚀发生机理,而现有研究大多用溅蚀量来表征溅蚀特征,不能全面准确地反应溅蚀作用过程。为此,基于改进的试验土槽进行室内模拟降雨试验,研究降雨能量对坡面不同方向溅蚀量及溅蚀过程的影响。试验设计包括2种降雨强度(50 mm/h和100 mm/h)和10个降雨能量,其中10个降雨能量是通过2种降雨强度(50 mm/h和100 mm/h)和5个雨滴降落高度(3.5,5.5,7.5,9.5、11.5 m)来实现的。结果表明:在相同降雨强度下,坡面总溅蚀分量均随降雨能量的增加而增大。次降雨坡面溅蚀量均为向下坡最大,其次为侧坡溅蚀量,而向上坡溅蚀量最小。当降雨强度由50mm/h增加至100mm/h时,坡面向上坡溅蚀量增加2.3—5.0倍,向下坡溅蚀量增加1.7—5.1倍,侧坡溅蚀量增加1.9—4.3倍,总溅蚀量增加1.9—4.5倍,净溅蚀量增加1.2—6.4倍。对于不同降雨能量处理,坡面溅蚀率均表现为坡面产流前随降雨历时的增加而递增,产流后迅速达到峰值,之后逐渐减小并趋于稳定。定量分析了各溅蚀分量、总溅蚀量、净溅蚀量与降雨能量的关系,提出了溅蚀发生的降雨能量阈值,发现雨滴溅蚀发生的临界能量为3—6 J m~(-2)mm~(-1),且向上坡溅蚀量,向下坡溅蚀量,净溅蚀量和总溅蚀量皆与降雨能量呈幂函数关系,而侧坡溅蚀量与降雨能量呈二次多项式关系。     

Fluxes of elements in rain passing through forest canopies in south-eastern Australia

The elemental content of rainfall (bulk deposition), throughfall and stemflow was measured inPinus radiata D. Don andEucalyptus forests in Gippsland, Victoria. Accessions in rainfall (mg m^–2 year^–1) averaged: organic-C 551, NO₃ ^–-N 96, NH₄ ⁺-N 62, total-N 303, K⁺ 382, Na⁺ 2250, Ca²⁺ 1170, and Mg²⁺ 678. The mean pH of rainfall was 5.9. Concentrations of all elements were greater in throughfall than in rainfall, and generally greater in stemflow than in throughfall. However, pH of pine throughfall was higher than that of rainfall, and pH of eucalypt throughfall was lower than that of rainfall. There was a net efflux of inorganic-N from pine crowns to rainfall, whilst in eucalypts there was generally net sorption of inorganic-N from rainfall. In both species organic-N was leached from the crowns and the net efflux of total-N from eucalypt crowns (50 mg m^–2 year^–1) averaged one-quarter of that in pines. Increases in the organic-C content of throughfall relative to rainfall in eucalypts were two to four times those in pines. Increases in the content of other elements in throughfall were comparable in pines and eucalypts and within the ranges K⁺ 615–1360, Na⁺ 480–-1840, Ca²⁺ 123–780 and Mg²⁺ 253–993 mg m^–2 year^–1. However, enrichment of Ca²⁺ may have been due to dust trapped in the canopies. Stemflow contributed significantly to the total amounts of elements reaching the forest floor in water.     

森林降水酸度及电导率的时空变化

在离大气污染源距离不同的两片杉木(Cunninghamia lanceolata)人工林中建立监测场,对降水化学进行了为期3年(1994～1996)的定位监测。降水通过林冠截留后,其酸度和电导率均明显增加,尤以树干径流为显著。在 FFC监测场,降雨、穿透雨和树干径流雨量加权平均pH值分别为6.13、6.06和4.18,在XQF监测场,其相应的数值分别为5.86、5.67和3.37;降雨和穿透雨的酸度表现出一定的季节变化动态,其最低月均pH值出现在夏委,最高值在冬季。在FFC监测场,降雨、穿透雨和树干径流雨量加权平均EC值分别为28.51μs·cm-1、63.71μs·cm-1、240.85μs·cm-1,在XQF监测场,其相应的数值分别为36.99μs·cm-1、66.41μs·cm-1、501.85μs·cm-1：降水电导率表现出显著一致的季节变化格局,其月均值均以夏季最低,冬季最高,春秋季居中,这种格局强烈受降雨量的影响。离污染源较近的XQF监测场,降水酸度和电导率明显高于相对未受污染的FFC监测场。     

中国西南虎跳峡地区云南松林土壤侵蚀控制潜能(英文)

 作为中国西南长江上游众多峡谷、深谷的典型代表,虎跳峡地区的土壤侵蚀是一个严重的环境问题。为了解决侵蚀问题,大面积的适宜荒山已经植树造林。云南松是运用最广的造林树种之一。本研究试图以虎跳峡地区1993年的情况为例,探讨云南松林土壤侵蚀控制的水文效应及其潜能。研究发现,云南松密林能够截留31.1％的降雨量。林下的土壤溅蚀量(4.9kg·m-2)比裸地上的(6.1kg·m-2)降低了19.7％。松林内的土壤流失总量与裸地的57.9g·m-2比较,降低到32.9g·m-2,表明松林减少了43.19％的土壤流失。实验指出,降雨强度对这里的土壤流失,以及云南松林的侵蚀控制作用有明显的影响。另一方面,研究也发现松林能够产生较大直径的叶滴,引起林下的叶滴溅蚀;而且,松林并不能明显地减少地表径流。然而,从综合作用来看,云南松密林具有土壤侵蚀控制的净效应。与茂密的草丛相比,松林侵蚀控制的效果相对较低。     

陕北黄土高原柠条灌丛穿透雨特征与影响因素

穿透雨是降雨再分配的主要组分,对干旱半干旱区的土壤水分补给和植被生长具有关键作用。灌丛穿透雨的影响机制特别是植被特征对穿透雨的影响需要进一步的定量研究,且目前对穿透雨空间异质性与聚集效应的研究相对较少。以陕北黄土高原典型灌丛—柠条为研究对象,于2016年对六道沟小流域柠条冠层下8个方位的穿透雨以及降雨和植被因子进行系统观测,分析穿透雨量、穿透雨率、穿透雨空间变异和聚集效应的变化特征,辨识影响穿透雨的主要降雨和植被因子,并建立相应的定量关系。结果表明:次降雨下柠条的穿透雨量、穿透雨率和空间变异系数平均值分别为11.88 mm、75.71%和21.80%。穿透雨量主要由降雨量决定,随降雨量增加而线性增加(R~2=0.99)。穿透雨率和空间变异系数主要受降雨量和降雨强度影响,穿透雨率随降雨量和I_30增加而呈对数增加(R~2=0.71和0.54),渐进值约为95%,而穿透雨空间变异系数则随降雨量和I_30增加而呈幂函数递减(R~2=0.71和0.60),稳定值约为10%。冠层厚度和枝倾角是影响穿透雨的主要植被因子,并分别呈显著的线性负相关和正相关(P0.05)。柠条穿透雨具有一定的聚集效应,平均发生频率为8.53%,且聚集效应在大雨量、高雨强和长历时降雨事件中更加明显。     

大兴安岭北部兴安落叶松林穿透雨延滞效应

以黑龙江漠河生态站兴安落叶松天然林为研究对象,对林外雨、穿透雨和树干茎流进行定位观测,分析大兴安岭北部兴安落叶松林穿透雨延滞效应.结果表明： 穿透雨量、树干茎流量和林冠截留量分别占同期降雨总量的76.5%、2.6%和20.9%.降雨发生后,穿透雨与林外雨在产生和终止时间上均存在一定延滞性;随降雨量级增大,穿透雨滞后时间表现出逐渐缩短的趋势,变动范围为（67.8±7.8）～（17.2±3.9） min（穿透雨）和（112.0±38.8）～（48.3±10.6） min（树干茎流）;相同降雨量级下,穿透雨滞后时间随降雨强度增大而逐渐降低,且降雨强度>2 mm·h^-1时延滞时间显著缩短,同时随雨前干燥期的增加而增长,而当雨前干燥期≥48 h时,降雨量则是影响滞后时间的主要因素;降雨终止时,降雨量>5.0 mm,穿透雨终止时间也存在延滞性,且随降雨强度增加而增大,但与雨前干燥期关系不明显;树干茎流终止时间先于林外雨终止时间,且主要与降雨量级有关,降雨量级越小,终止时间越早.     

中亚热带红壤区油桐(Vernicia fordii)林冠水文效应特征

于从2004年7月到2005年9月,对南方红壤区油桐人工林的穿透雨、树干流和林冠截留的水文特征进行了监测,并对其影响因素进行初步分析,结果表明：在整个测定期间,油桐林穿透雨占总降雨量75.6%±8.6%,树干流占3.6%±1.1%,而截留量占20.8%±9.1%。油桐林冠对降雨的再分配受到降雨量和降雨强度的影响,随着雨量的增加,穿透雨、树干流和截留量相应地提高,并且树干流和截留量在高的雨量下逐渐趋于稳定;随着降雨强度的增加,穿透雨率逐渐升高,而树干流率和截留率降低。在不同雨量级间,油桐穿透雨具有显著性的差异,但树干流的差异不显著。油桐林下水分输入存在明显的空间异质性,穿透雨在不同观测点间具有显著性差异,靠近树干的林冠内部穿透雨低于林冠边缘,而且随着降雨量或降雨强度的增加,穿透雨的空间异质性(穿透雨率的变异系数CV)降低;树干流对降雨也具有明显的汇集作用,在树干周围输入的雨量是林外降雨量20~70倍,并且随着降雨量的增加,这种汇集效应（漏斗比率）先提高后降低。同时油桐单株树干流(cm³•mm^-1)与胸径、树高和冠层面积均呈显著正相关(p<0.05),但是与枝下高的相关性不显著(p>0.05)。     

槟榔林冠穿透雨空间格局的时间稳定性

槟榔林是热带地区广泛种植典型经济林,独特的树冠结构改变了穿透雨的空间格局,但针对穿透雨空间格局的时间稳定性研究很少,影响对穿透雨生态效应的认识与调控。以海南岛槟榔林为研究对象,基于33场降雨数据,研究了穿透雨的空间格局及时间特性,结果显示:(1)槟榔树冠内不同位置穿透雨差异极显著(P0.01),穿透雨率分别为:树干附近(85.6%)、冠幅中央(48.3%)、冠幅边缘(59.8%),穿透雨空间格局表现为向树干附近汇集的特点;不同方位的穿透雨率仅东面显著高于南面(P0.1),表明风向对穿透雨空间格局具有一定影响。(2)槟榔树冠下各位点穿透雨时间变异程度大(65.7%),但槟榔树冠幅中央穿透雨时间稳定性较好(55.6%),而树干旁边和冠幅边缘穿透雨时间稳定性较差(25%、19.4%),各方位穿透雨的时间稳定性相差不大(约1/3)。(3)距树干距离和降雨量影响穿透雨的时间稳定性,距树干不同距离平均叶片倾斜角度的差异是造成穿透雨在时间上不稳定的关键因素,平均叶片倾斜角度与穿透雨时间不稳定程度呈现显著正相关关系(P0.05);穿透雨时间稳定性在中等降雨条件下最差,随着降雨量增加,冠层对穿透雨的"屏蔽效应"减弱,"滴水效应"增加。揭示槟榔植株个体穿透雨的空间格局及时间稳定性,可为认识乔木个体尺度穿透雨时空特征提供参考,也可为解释林地小尺度土壤水分和土壤侵蚀的空间格局及时间动态提供依据。     

The influence of emergent trees on rainfall distribution in a cacao agroforest (Sulawesi,Indonesia)

Emergent trees may have an influence on the volume and the spatial distribution of water input into agroforestry stands and may thus affect water availability for the main crops. Our goal was to analyze the influence of such trees on rainfall distribution in a cacao agroforest area in the rainforest margin zone of Central Sulawesi, Indonesia. The emergent trees studied belong to the species Bischofia javanica (Phyllanthaceae) and were 15 m high remnants from the natural forest. A set of 96 throughfall gauges was systematically distributed underneath canopies of cacao only, and underneath canopies of cacao plus emergent trees (cacao plus trees). From an earlier study we knew that stemflow can safely be estimated with less than 1% of gross precipitation (Pg).     

Interactions between plant nutrients,water and carbon dioxide as factors limiting crop yields

Biomass production of annual crops is often directly proportional to the amounts of radiation intercepted, water transpired and nutrients taken up. In many places the amount of rainfall during the period of rapid crop growth is less than the potential rate of evaporation, so that depletion of stored soil water is commonplace. The rate of mineralization of nitrogen (N) from organic matter and the processes of nutrient loss are closely related to the availability of soil water. Results from Kenya indicate the rapid changes in nitrate availability following rain.<br>Nutrient supply has a large effect on the quantity of radiation intercepted and hence, biomass production. There is considerable scope for encouraging canopy expansion to conserve water by reducing evaporation from the soil surface in environments where it is frequently rewetted, and where the unsaturated hydraulic conductivity of the soil is sufficient to supply water at the energy limited rate (e.g. northern Syria). In regions with high evaporative demand and coarse-textured soils (e.g. Niger), transpiration may be increased by management techniques that reduce drainage.<br>Increases in atmospheric [CO₂] are likely to have only a small impact on crop yields when allowance is made for the interacting effects of temperature, and water and nutrient supply. <br>     

山杨林地枯落物层对溅蚀的影响

天然降雨下３０年生山杨林内溅蚀试验结果表明,当Ｉ＿（３０）（最大３０分钟雨强）为０．０７６ｍｍ／ｍｉｎ或Ｐ＿ｏ（林内降雨量）为３．３ｍｍ时,清除枯落物层林地发生溅蚀,在Ｉ＿（３０）为０．３５ｍｍ／ｍｉｎ或Ｐ＿ｏ为２５．５６ｍｍ时具１ｃｍ枯落物层的林地不发生溅蚀;从溅蚀月动态看出７、８月份占全年溅蚀量的６０％以上;在同一土壤和坡度条件下,Ｉ＿（３０）、Ｐ＿ｏ、Ｈ＿１（枯落物层厚度）是溅蚀发生的主要因素,且溅蚀量（Ｓ＿ｔ）与其呈二次多项式回归关系,但当枯落物层具有一定厚度时溅蚀与其他因素无关。溅蚀主要发生在清除枯落物层的林下,随枯落物层厚度增加,溅蚀量剧减,当枯落物层积累到１ｃｍ时防止土壤溅蚀量达９７．５０％。     

Yield Responses of Wheat to Mulching Practices in Dryland Farming on the Loess Plateau

Improving farming practices of soil and water conservation has profound effects on the yield of wheat (Triticum aestivum L.) in dryland farming regions of the Loess Plateau in China. Mulching has proven to be an effective practice to increase crop yield, and possibly contribute to replenishing groundwater. This evaluation study collected and analyzed the data of 1849 observations published in 38 papers using meta-analysis to investigate effects of the mulching practices on wheat yield in terms of different rainfall and regions in comparison with conventional tillage. The main results of the study follow. The effects of the mulching practices were ranked in the order of RFM (ridge–furrow mulching) > MTMC (mulching with two materials combined) > MOM (mulching with other materials) > WSM (wheat straw mulching) > FM (flat mulching). The effects of the mulching practices at the different levels of rainfall during the wheat growing season were in the order: (< 150 mm) > (> 250 mm) > (150–250 mm). The effects of the mulching practices in the different regions were in the order of Henan > Shanxi > Shaanxi > Gansu. WSM, MTMC and FM performed better in improving wheat yield for rainfall of < 150, 150–250 and > 250 mm during the growing season, respectively. The wheat yield with FM, MTMC, MOM and MOM was higher than those with the other mulching practices in Shaanxi, Gansu, Henan and Shanxi. The wheat yield with RFM was 27.4% higher than that with FM, indicating that RFM was the most effective practice to improve wheat yield among all the practices. These findings have important implications for choosing appropriate crop field management to improve wheat yield.     

Water and element input into native, agri- and silvicultural ecosystems of the Brazilian savanna

The interaction of rain water with the vegetation canopy results in changes of the water quantity and quality. We examined these canopy effects in different ecosystems of the Brazilian savanna, the Cerrado. The ecosystems were 20 yr-old Pinus caribaea Morelet plantations (PI), productive (PP) and degraded Brachiaria decumbens Stapf pastures (DP), continuous corn-soybean rotation (CC), and native typical cerrado (CE). We collected rainfall, throughfall, and, in PI and CE, stemflow from three plots of each ecosystem. Dry deposition and canopy leaching were estimated with a Na-tracer method. Between May 1997 and April 1999, the mean annual rainfall was 1656 mm of which 145 mm fell during the dry season (May–September). The throughfall percentage of the rainfall increased in the order, PI (75–85%) < CC (76–89%) < CE (89–100%) < PP (90–100%) < DP (99–100%); stemflow was < 1% of the rainfall. The volume-weighted mean (VWM) pH in rainfall was higher in the dry (6.5) than in the rainy season (5.4). The VWM pH in throughfall decreased in the order, CC (rainy season: 5.9/dry season: 6.2) > PP (5.5/6.0) > CE (5.2/6.0) > DP (5.2/5.6) > PI (4.8/5.7). The rainfall deposition of the dry season contributed one third of the annual element input with rainfall because of higher element concentrations than in the rainy season. The mean Na deposition ratios, i.e. the ratio of throughfall (+ stemflow) to rainfall deposition as a measure for dry deposition, increased in the order, CE (1.5) = CC (1.5) < PP (1.7) < PI (1.9) < (DP 2.1). Total deposition (rainfall + dry deposition) accounted for 104–164% of the K and Ca fertilizer application in PP and for 6.1–12% of the K, Ca, and Mg fertilizer application in CC. The P concentrations were below the detection limit of 0.2 mg L^–1 in all samples. Net canopy uptake, i.e. a smaller throughfall(+ stemflow) than rainfall + dry deposition, of Ca, K, Mg, S, Cu, and Zn in at least one of CE, PI, DP, and PP indicate that plant growth may be limited in part by these nutrients. During the vegetation period, between 28 and 50% of the applied K and Ca were leached from the canopy in PP and between 8.7 and 17% of the applied K, Ca, Mg, and S in CC. Our results demonstrate that PI causes larger water losses and enhanced acid inputs to the soil compared with all other ecosystems. However, the PI and pasture canopies scavenge more nutrients from the atmosphere than CE and CC.     

The Effect of Leaf Litter Cover on Surface Runoff and Soil Erosion in Northern China

The role of leaf litter in hydrological processes and soil erosion of forest ecosystems is poorly understood. A field experiment was conducted under simulated rainfall in runoff plots with a slope of 10%. Two common types of litter in North China (from Quercus variabilis, representing broadleaf litter, and Pinus tabulaeformis, representing needle leaf litter), four amounts of litter, and five rainfall intensities were tested. Results revealed that the litter reduced runoff and delayed the beginning of runoff, but significantly reduced soil loss (p<0.05). Average runoff yield was 29.5% and 31.3% less than bare-soil plot, and for Q. variabilis and P. tabulaeformis, respectively, and average sediment yield was 85.1% and 79.9% lower. Rainfall intensity significantly affected runoff (R = 0.99, p<0.05), and the efficiency in runoff reduction by litter decreased considerably. Runoff yield and the runoff coefficient increased dramatically by 72.9 and 5.4 times, respectively. The period of time before runoff appeared decreased approximately 96.7% when rainfall intensity increased from 5.7 to 75.6 mm h⁻¹. Broadleaf and needle leaf litter showed similarly relevant effects on runoff and soil erosion control, since no significant differences (p≤0.05) were observed in runoff and sediment variables between two litter-covered plots. In contrast, litter mass was probably not a main factor in determining runoff and sediment because a significant correlation was found only with sediment in Q. variabilis litter plot. Finally, runoff yield was significantly correlated (p<0.05) with sediment yield. These results suggest that the protective role of leaf litter in runoff and erosion processes was crucial, and both rainfall intensity and litter characteristics had an impact on these processes.     

不同开垦年限黑土溅蚀与团聚体分选特征

分别以开垦年限为8 a、30 a、50 a的典型黑土耕地和未开垦的天然次生林林地表层土壤为对象,采用人工模拟降雨的方法,对比分析了不同开垦年限土壤的溅蚀规律及溅蚀过程中团聚体分选、分布特征,并通过析因分析研究了开垦对黑土溅蚀的影响机制.结果表明：不同开垦年限黑土耕地土壤的溅蚀量明显高于未开垦次生林林地土壤,且随开垦年限的延长而增加,变化范围为0.95～7.06 g·cm^-1;土壤溅蚀量与溅蚀距离表现出紧密的指数函数关系,而且随着水平空间距离的增加,小粒级水稳性团聚体比例逐渐增加;溅蚀对黑土团聚体产生富集作用与损耗作用的临界粒级为1.0 mm;粒级＞2 mm、＜0.25 mm水稳性团聚体及有机质含量是典型黑土土壤溅蚀量及其变化特征的主要影响因子.     

六盘山华北落叶松林下穿透雨空间变异特征

受林冠截持影响后形成的林下穿透雨的数量和空间分布会影响林地的入渗、产流、蒸发等水文过程和林木生长及枯落物分解等生态过程,因而精细的森林水文功能评价和森林生态系统经营都需要准确描述林下穿透雨的空间变异规律。在宁夏六盘山香水河小流域设立了面积为30 m×30 m的华北落叶松人工林样地,均匀布设了40个截面面积230.58 cm2的雨量收集器,测定了2015年生长季(5—10月)34次降雨事件的穿透雨量。结果表明,研究期间林外总降雨量567.0 mm,林下总穿透雨量483.5 mm,占同期雨量的85.3%。随着次降雨量增加,林内次穿透雨率呈现先快速增加后趋于稳定的变化。穿透雨量在林内存在较大空间变异,其变异程度随次降雨量增加先快速下降后趋于稳定。林下穿透雨空间分布受树木特征(穿透雨收集器上方的林冠叶面积指数和冠层厚度、穿透雨测点离最近树干的距离)的影响,且其影响随次降雨量大小而变,当次降雨量10 mm时,穿透雨量与叶面积指数显著负相关;当次降雨量在10—20 mm时,穿透雨量与距最近树干距离显著正相关,与冠层厚度显著负相关;当次降雨量20 mm时,穿透雨量与3个树木特征均不显著相关。考虑到研究区次降雨量集中在0—10 mm,在95%或90%的置信区间下,若将测定的次穿透雨数值误差控制在10%以内时,在30 m×30 m样地内至少需布设13或9个本研究所用大小的收集器;满足次穿透雨数值误差在5%以内时,至少需布设26或23个这样的收集器。     

几种常用造林树种冠层对降水动能分配及其生态效应分析

本文从理论上系统地论述了林冠如何调节到达林地的降水动能,推导了计算大气降水和穿透水动能的理论和方法。经由理论推导指出并非所有的森林都适合作为水土保持林,即由穿透水的水滴直径较大,而且不受大气降水强度的影响及穿透水常常不是以最大的稳定速度到达林地这两个规律来讨论森林冠层在水土保持功效方面所具有的地位,可以做为营造水土保持林的理论基础。     

Species-Specific Effects on Throughfall Kinetic Energy in Subtropical Forest Plantations Are Related to Leaf Traits and Tree Architecture

Soil erosion is a key threat to many ecosystems, especially in subtropical China where high erosion rates occur. While the mechanisms that induce soil erosion on agricultural land are well understood, soil erosion processes in forests have rarely been studied. Throughfall kinetic energy (TKE) is influenced in manifold ways and often determined by the tree’s leaf and architectural traits. We investigated the role of species identity in mono-specific stands on TKE by asking to what extent TKE is species-specific and which leaf and architectural traits account for variation in TKE. We measured TKE of 11 different tree species planted in monocultures in a biodiversity-ecosystem-functioning experiment in subtropical China, using sand-filled splash cups during five natural rainfall events in summer 2013. In addition, 14 leaf and tree architectural traits were measured and linked to TKE. Our results showed that TKE was highly species-specific. Highest TKE was found below Choerospondias axillaris and Sapindus saponaria, while Schima superba showed lowest TKE. These species-specific effects were mediated by leaf habit, leaf area (LA), leaf pinnation, leaf margin, stem diameter at ground level (GD), crown base height (CBH), tree height, number of branches and leaf area index (LAI) as biotic factors and throughfall as abiotic factor. Among these, leaf habit, tree height and LA showed the highest effect sizes on TKE and can be considered as major drivers of TKE. TKE was positively influenced by LA, GD, CBH, tree height, LAI, and throughfall amount while it was negatively influenced by the number of branches. TKE was lower in evergreen, simple leaved and dentate leaved than in deciduous, pinnated or entire leaved species. Our results clearly showed that soil erosion in forest plantations can be mitigated by the appropriate choice of tree species.     

大兴安岭北部兴安落叶松(Larix gmelinii)林下穿透雨空间分布特征

森林冠层对降雨的水量和水质再分配是生态水文学研究的热点问题之一。为了研究兴安落叶松林下穿透雨的空间分布规律,探究森林冠层结构对穿透雨影响的生态机制,利用在兴安落叶松林下布设38个雨量筒,测定19场不同降雨事件的穿透雨数据(2013年7—8月),通过统计学方法分析冠层结构各因子与穿透雨的空间变异性规律,结果表明:观测期间,兴安落叶松林穿透雨量为148.3 mm,占同期大气降雨量的80.62%,穿透雨率随着降雨量的增加呈增加趋势;兴安落叶松林下穿透雨具有较大空间异质性,其变异程度随降雨量的增加而减小,以对数方程拟合较好(P0.01);冠层结构特征是影响穿透雨空间变异的重要因素,冠层复杂程度与穿透雨量呈负相关关系(P0.01);距树干距离、冠层厚度、叶面积指数等因素均可影响穿透雨的空间分布,以距树干距离影响最大,其与穿透雨率呈正相关关系(P0.01),而冠层厚度、叶面积指数则均与穿透雨率呈负相关关系(P0.01),但拟合效果不佳;从影响穿透雨的生态学机制来考虑,在冠层结构特征因子中,冠层厚度是决定穿透雨空间分布的最主要因素。