鼎湖山季风常绿阔叶林大气降雨、穿透雨和树干流的养分特征

对鼎湖山季风常绿阔叶林大气降雨、穿透雨和树干茎流中的5种养分元素K、Ca、Mg、N、P进行了测定,结合水量分配规律,研究了森林降雨过程中养分在水相中的含量变化特征和输入规律。结果表明:(1)所有离子浓度均为大气降水穿透雨树干流,且增幅较大,而平均浓度以K+和总氮(TN)含量最高;总磷(TP)、磷酸盐(HPO42-)、总有机磷(TOP)含量均最低。(2)大气降雨中的离子平均浓度中以总有机氮(TON)的变异系数最大,为1.282;最小的是NO3-(0.502);穿透雨中变异系数最大的是TOP(2.357);最小的是TN(0.621)。树干流中各养分元素浓度与树种的相关性不显著(P0.05)。(3)季风常绿阔叶林树干流和穿透雨各养分对森林土壤的年输入量为TNK+Ca2+Mg2+TP,树干流和穿透雨对森林土壤层Ca2+的输入大于凋落物分解输入。因此,大气降雨是养分从林冠层转移到土壤层的重要因素。     

南亚热带三种主要森林降雨及其再分配过程中的养分差异规律

马尾松林、针阔叶混交林和季风常绿阔叶林是南亚热带鼎湖山地区由演替初期到成熟森林过程的典型代表,对3种林地的降雨量及其再分配过程进行观测,并测定该过程中养分(N、P、K、Ca、Mg)浓度。结果表明,大气降雨经过冠层再分配后,除Ca外,各养分浓度在穿透雨和树干流中都有所增加,树干流增加的幅度更大。穿透雨中Ca元素浓度低于大气降水,这一现象在3种林型均有表现。穿透雨和树干流中养分浓度在演替系列上没有显示出一致的规律,但比较不同演替阶段的输入量可以看出,树干流养分输入量随演替进行呈增加趋势。经过冠层作用后,雨水带来的养分输入量大于凋落物分解输入量,这种现象在马尾松林和混交林尤为明显。表明大气降雨不仅促使养分元素从冠层向地表迁移,而且提供了演替初期植物生长所需的重要养分。     

茂兰喀斯特地区森林降水分配的水化学特征

于2007年9月—2009年8月对中国西南茂兰喀斯特地区亚热带常绿落叶阔叶混交林大气降水、林冠穿透雨和树干茎流进行观测,分析了各降水分配中的养分离子(Ca2+、Mg2+、K+、Na+、NH4+、SO42-、NO3-、Cl-)浓度动态变化规律及年养分元素输入量。结果表明:7—9月,林外雨、林冠穿透雨和树干茎流中各养分离子浓度相对较低,12月—翌年2月,各降水分配中各养分离子浓度相对较高;降水通过林冠或树干后,除了Na+浓度无显著变化外,NH4+浓度表现下降趋势,Ca2+、Mg2+、K+、Cl-、NO3-和SO42-均表现增加趋势;林外雨的养分元素输入量顺序为Ca2+SO42--SNH4+-NCl-K+Na+Mg2+NO3--N。在林冠穿透雨+树干茎流中的养分元素输入量顺序为K+Ca2+Cl-SO42--SMg2+NH4+-NNO3--NNa+。与非喀斯特地区相比,林外雨中的各养分离子浓度较低,林冠穿透雨、树干茎流中的K+、Ca2+、Mg2+增加幅度较大。总体来看,独特的立地特征决定了该地区Ca2+、Mg2+的积极参与生态系统养分循环和K+高效循环的特征。     

云南中山湿性常绿阔叶林中降雨对养分淋溶的影响

 作者在云南哀牢山生态站对中山湿性常绿阔叶林进行了定位研究,根据1990～1992年所取得的观测资料,对林外大气降雨,林内雨及树干茎流的养分浓度,养分季节变化及养分贡献进行了分析和讨论,探讨了大气降雨对养分淋溶的影响。结果表明：N、P、K、Ca、Mg浓度在林外降雨、林内降雨及树干流中有很大的差异。其养分浓度和养分输入均为雨季>干季,且养分浓度除林外降雨中N浓度外,均表现树干茎流>林内雨>林外降雨。此外,对降雨和淋溶作用对林地养分物质输入的贡献也进行了分析和讨论。     

贵州省喀斯特地区原始林水化学特征

降水是森林生态系统的一个主要的养分输入源,观测并分析降水化学对于准确地估算森林生态系统养分循环的养分元素浓度与量显得极为重要。对贵州省茂兰国家自然保护区原始林森林群落2007年9月-2008年8月的降水进行定位观测与分析。结果表明:(1)在林外雨、林内雨、树干流和溪流水中,除了Na+之外,pH值与大部分的养分元素的浓度表现出明显的季节变化,冬季与早春浓度较高,夏季浓度较低。这与各季节的降雨量不同而导致浓度稀释或者浓缩有关。(2)大气降雨通过林冠的过程中,养分元素的浓度出现了较大的变化,林内雨与树干流中的浓度基本高于大气降雨;养分元素变化中,浓度差异较大的元素是K+、Mg2+和Ca2+,K+在林内雨和树干流的浓度分别是大气降雨的14倍和21倍;Mg2+浓度分别为大气降雨的12倍和9倍;Ca2+浓度分别为大气降雨的4倍和3倍,这与大气降雨通过林冠,与树体的养分交换以及树体养分的溶脱有关。(3)通过林内雨,树干流输入样地较多的养分元素是K+和Ca2+,分别是35.8kg.hm-.2a-1和31.5kg.hm-.2a-1;通过溪流水输出的元素中,较多的是Ca2+和Mg2+,分别是-547.4kg.hm-.2a-1和-144.5kg.hm-.2a-1;其次是SO24-,而Na++K++NH4+-N总量不足阳离子总量的1%,Cl-+NO3-总量不足阴离子总量的1%。这可能与母岩风化是碳酸岩类岩石风化有关。(4)年养分的垂直移动量特征显示,土壤0cm到土壤5cm的养分元素量变化较明显,无机态N量的变化可能跟微生物的氮固定、无机化或者植被的吸收有关。(5)研究地的年间养分元素量收支分别为N2.9kg.hm-.2a-1;K25.2kg.hm-.2a-1;Ca-547.4kg.hm-.2a-1;Mg-144.5kg.hm-.2a-1;Na-4.0kg.hm-.2a-1;Cl2.5kg.hm-.2a-1和SO24-S-5.9kg.hm-2.a-1。在年间养分的输入与输出中,无机态N跟K+显示正收支,Ca2+、Mg2+为负收支,而Na+、Cl-相对较稳定。     

鼎湖山酸沉降背景下主要森林类型水化学特征初步研究

雨水的水质在通过森林后会发生变化．如果雨水是酸性的,这种变化会更加明显．通过一年多时间在鼎湖山主要森林类型采样分析发现,鼎湖山大气降水pH值低,酸雨频率高;阔叶林穿透雨pH值比大气降水高,树干径流和地表水pH值比大气降水低,土壤自然酸化非常严重;混交林穿透雨和地表水酸度比大气降水低,树干径流酸度则大于大气降水;针叶林穿透雨和树干径流都有进一步酸化趋势,但地表水pH值比大气降水高．3种林型比较,阔叶林林冠缓冲能力最强,针叶林土壤缓冲能力最大．3种林型,林内降水和地表水养分N、P、K、Ca、Mg和Na含量除N外都明显高于大气降水．各林型树干径流对养分富集能力强于穿透水,养分在大气降水中的浓度低于在地表水中的浓度．针叶林林内降水比混交林和阔叶林养分含量高,但地表水中养分浓度比后两者低．从地表水的养分浓度看,阔叶林和混交林养分亏损更为严重．     

鼎湖山季风常绿阔叶林某些沉积元素转移过程中的浓度分析

对鼎湖山大气降水、季风常绿阔叶林林冠穿透水、土壤水(30cm和80cm深)以及溪水中某些沉积元素进行了系统连续的观测研究,从沉积元素的转移过程阐明了鼎湖山自然保护区和季风常绿阔叶林所承受的环境压力,通过分析沉积元素在这些水文学过程中的浓度变化和相互联系,试图揭示该生态系统相应功能过程变化的规律。得到如下结果：(1)大气降水中的Pb含量远远高于穿透水、土壤水(30cm和80cm深)以及溪水中的含量,随着水分由输入向输出流动,Pb的浓度逐渐降低;(2)在大气降水、林冠穿透水、土壤水(30cm和80cm深)以及溪水中,Al离子的浓度逐步增加;(3)除Pb外,所有其他元素(Al、Mn、sr、Mg、Na、K和Ca)在土壤溶液中的浓度都高于5个水文过程的平均值;(4)Mn、K、Ca的输入和输出的浓度都不高;(5)Na和Mg在土壤水和溪水中的浓度超过5个水文过程的平均值。这表明：(1)鼎湖山的大气具有高浓度的Pb含量,而且Pb在季风常绿阔叶林系统中处于一个持续的积累过程;(2)酸性降水不仅活化了土壤中的Al元素,对各个水文学过程中的离子浓度也有增大的作用;(3)Na和Mg在当前的大气环境下有可能加速地从季风常绿阔叶林生态系统中淋洗出来。总之,由于酸雨和大气污染的影响,鼎湖山森林生态系统将处于不稳定状态。     

马尾松人工林林冠层 降雨再分配及其氮磷特征

为了解马尾松(Pinus massoniana)人工林的降雨分配及对氮磷的截留作用,研究了宜宾高县来复镇18和32年生马尾松人工林的大气降雨量、穿透雨量和树干茎流量,并对其全磷(TP)、铵态氮(NH4+-N)和硝态氮(NO3--N)进行了测定。根据月降雨量的变化情况,将7—11月份划分为雨季、1—4月份划分为旱季。降雨量级大小影响林冠层截留量及其氮磷含量。不同林龄的马尾松林大气降雨、穿透雨和树干茎流中截留量的变化趋势与降雨量级的大小呈正相关,旱季林冠截留量小于雨季的截留量。马尾松人工林旱季大气降雨、穿透雨和树干茎流中的TP、NH4+-N、NO3--N月平均含量显著高于雨季,TP、NH4+-N、NO3--N含量在不同月份之间的变化明显,但18和32年生马尾松人工林林冠截留的N、P总含量差异不显著。大气降雨、穿透雨和树干茎流中的N、P含量与降雨量之间存在显著的负相关。     

北京西山地区油松林水文过程中营养元素迁移特征

对北京西山地区31a油松林降水化学进行定位监测与分析.结果表明：（1）大气降水流经油松林过程中,其营养元素（除Na^＋外）的浓度出现梯度变化：树干茎流高于穿透雨高于大气降水,并且有明显的月际变化,表明从林冠、树干淋洗大量的营养元素,林冠和树干中养分元素迁移是森林生态系统养分循环重要的组成部分.（2）营养元素变化中,浓度差异变化较大的元素是NO3^--N和K^＋,NO3^--N在穿透雨和树干茎流的浓度分别是大气降水的4.4倍、9.9倍,它们中的K^＋浓度分别为大气降水的4.1倍和8.1倍.（3）降水经过油松林,养分淋溶总量为54.12kg hm^-2,淋溶量较多的元素是Ca和K,淋溶强度最大的元素是K^＋.（4）北京西山地区大气降水输入林地的养分66.38kg hm^-2,较多的元素是Ca、N.降水经过油松林输入林地养分总量为120.50kg hm^-2,Ca元素最高,为61.22kg hm^-2,其次是N元素（NH4^＋-N＋N3^--N）,为31.34kg hm^-2,K元素为16.49kg hm^-2,Mg元素为8.11kg hm^-2,Na元素最少,为3.34kg hm^-2.     

亚热带常绿阔叶林和杉木人工林茎流与穿透雨的养分特征

亚热带常绿阔叶林和杉木人工林树干茎流和穿透雨养分含量均表现季节动态变化。养分含量中,K^ 、Ca^2 、NO3%-浓度高,Na^ 、Mg^2 居中,HPO4^2-含量低,相对于林外雨,养分均出现富集化,但树干茎流养分富集化高于穿透雨。树干茎流出现强烈的酸化,而穿透雨酸化现象不明显。树种之间的茎流养分特征表现不一样,樟树和枫香总的养分浓度较高,其次为刨花楠,最后为青冈和红栲。     

Nutrient content of incident rainfall,throughfall and stemflow in a Nigerian secondary lowland rainforest

Abstract. Nutrient content of rainfall, throughfall and stemflow was studied over one year in the open and under the crowns of three tree species in a secondary rain forest at Ile‐Ife, Nigeria. Throughfall and stemflow comprised 78.8 % and 5.2 % respectively; 16.0 % of the incident rainfall was intercepted by the forest canopy. The concentrations of various nutrient elements in throughfall and stemflow were higher than those of incident rainfall. In throughfall and stemflow potassium concentration was highest and that of ammonium nitrogen was the lowest. Only calcium and sodium concentrations showed significant monthly variation in incident rainfall. Ca, Mg, K. Cu and P showed significant monthly variation in throughfall and stemflow. The concentrations of the elements were highest during the heavy‐rain months (May‐September). High concentrations of some of the elements were recorded also in November, the last rain month and the beginning of the dry season. The concentration of these elements in stemflow and throughfall was affected by tree species. The highest quantity of each element was deposited in the forest via throughfall followed by incident precipitation and the lowest via stemflow. The tree species affected the quantities of these elements by the volume of their stemflow and throughfall and the concentration of the various elements herein. Total nutrient concentration was much higher than available (dissolved) nutrient concentration. This was very pronounced with micronutrients.     

Rainfall partitioning into throughfall and stemflow and associated nutrient fluxes: land use impacts in a lower montane tropical region of Panama

Land-use change alters catchment hydrology by influencing the quality and quantity of partitioned rainfall. We compared rainfall partitioning (throughfall, stemflow and interception) and nutrient concentrations in rainfall, throughfall and stemflow in three land-use types [primary forest (PF), secondary forest (SF) and agriculture (A)] in Panama. Measurements of throughfall were highly variable which may have masked seasonal and land use differences but it was clear that throughfall at agricultural sites made up a larger proportion of gross precipitation than at forest sites. Of incident precipitation, 94% became throughfall in agriculture sites while 83 and 81% of gross precipitation became throughfall in PF and SF, respectively. The size of the precipitation event was the main driver of variation in throughfall and stemflow. Consistent patterns in nutrient cycling were also difficult to identify. Vegetation has a vital role in delivering nutrients as throughfall deposition of K was often larger than precipitation deposition. A canopy budget model indicated that canopy exchange was often more dominant than dry deposition. Throughfall was generally enriched with nutrients, especially K and Mg, with enrichment factors of up to 17 and 5 for K and Mg, respectively, in PF. In contrast, Ca was sometimes taken up by the canopy. Values of nutrient deposition were high (with up to 15, 3, 30 and 15 kg ha^?1 month^?1 in stand deposition of Ca, Mg, K and Na, respectively in PF), possibly due to the slash-and-burn agricultural practices in the area or marine inputs. Throughfall and stemflow are vital sources of nutrients in these ecosystems.     

湿地松人工林中降雨对养分物质的淋溶影响

降雨的水质在通过森林后会发生十分大的变化。本文选择了亚热带湿地松人工林,通过分别实测降雨过程中林外降雨、林内降雨及树干流的变化,及其相应的水质变化,分析了湿地松人工林地内雨量再分配的特点,在此基础上阐述了通过降雨过程湿地松人工林地内营养元素的输入及循环过程的特点。 分析结果表明,林外降雨、林内降雨及树干流的P、N、Ca、Mg、Na、K等浓度有很大的差异。与水分运动相对应,各种元素以点源或面源的形式进入流域,从而构成了两个过程与速度均不同的循环。此外,也讨论了降雨与树表面淋溶作用对林地物质输入的贡献。     

人工桤柏混交林中降雨对养分物质的淋溶影响

引　言水体养分物的循环是生态系统生物地球化学循环的一个重要组成部分,因此,从生态角度来研究森林的存在对流域的水分循环和物质迁移的影响将是一个十分有意义的工作。目前,欧美各国关于森林与水质的关系研究比较多[5]。我国较多研究森林对河流泥沙悬浮含量影响,或干枝落叶和微生物对腐殖质转化等作用形成的森林养分循环,而较少研究森林降雨重新分配作用对森林养分循环的影响[1,2],因此,本文选择了亚热带人工桤柏混交林,通过观测降雨过程中林外降雨、林内降雨、树干流及其相应水质的变化,结合林外降雨、林内降雨和树干流的时空变化特性,分…     

鼎湖山马尾松林降水再分配对养分动态影响

在鼎湖山马尾松林中 ,降水到达森林重新分配后 ,pH值的大小变化顺序为 :茎流 >径流 >穿透雨 >降水 ,且它们均呈酸性。与 pH值变化基本上相类似 ,养分元素浓度在各过程中均以茎流最高 ,降水最低。不同元素比较 ,其大小次序为 :Ca>N >Mg>P。Ca、P和Mg三种元素浓度在各过程中的月变化较明显 ,但pH值和N元素浓度的月际变化不强。该生态系统养分元素呈积累状态 ,大气降水的养分输入为 (kg·hm 2 ·a 1) :2 0 .62 9(N)、1 .0 1 5 (P)、46.3 3 2 (Ca)、3 .5 0 8(Mg) ;输出为 (kg·hm 2 ·a 1) :7.1 2 0 (N)、0 .63 2 (P)、2 3 .640 (Ca)、2 .1 3 3 (Mg)。此外 ,还对该生态系统生物地球化学循环特征进行了讨论。     

Litterflow chemistry and nutrient uptake from the forest floor in northwest Amazonian forest ecosystems

Samples of the fraction of net rainfall passing through the forest floor collected at monthly intervals in four pristine forests in Colombian Amazonia, during the period between 1995–1997 were analysed for solute concentrations to estimate the element fluxes from the forest floor into the mineral soil and root nutrient uptake from these forest floors. Results were compared with inputs by throughfall, stemflow, litterfall and fine root decay. Element concentrations were tested for their relationship with litterflow amounts, rainfall intensity and length of the antecedent dry period and differences in element fluxes between ecosystems were assessed. Concentrations of elements in litterflow followed a similar pattern as those in throughfall, which indicates that element outputs from the forest floor are strongly related to those inputs in throughfall. In the forests studied, the average concentrations of elements as K, Mg, orthoP and the pH of the litterflow decreased relative to that in throughfall in most events, while the concentration of elements such as dissolved organic carbon, H, SO₄ and Si increased in litterflow from these forests. Element concentrations in litterflow showed a poor correlation with variables such as litterflow amounts, rainfall intensity and antecedent dry period, except for K which showed a significant correlation (p>0.95) with analysed variables in all forests. Outputs were significantly different between forests (p>0.95); these fluxes, which particularly concerned cations, being the largest in the flood plain, while for anions outputs increased from the flood plain to the sedimentary plain. After adding the nutrient contributed by litter decomposition and fine root decay, the net outputs of main elements from the forest floors were still smaller than inputs by net precipitation (throughfall+stemflow) indicating that the litter layers clearly acted as a sink for most nutrients. Accordingly, the element balances confirm that the forest floors acted as a sink for nutrients coming in by throughfall, stemflow, litterfall and fine root decomposition. P, Mg and N appeared to be the most limiting nutrients and the forests studied efficiently recycled these nutrients.     

Nutrient content of throughfall and stemflow in fertilized and irrigatedPinus resinosa ait. Stands

Summary The P, K, Ca, and Mg contents of throughfall and stemflow from K-fertilized and/or irrigated plots from adjacent sites differing in productivity in 39-year-oldPinus resinosa plantations were determined. The amounts of these elements leached from the tree canopies (throughfall plus stemflow) during April through October varied significantly according to site and treatment. These amounts ranged in kg per ha from −0.03 to 0.23 for P, 2.05 to 8.78 for K, 1.55 to 3.63 for Ca, and 0.02 to 0.44 for Mg. Leaching of P, K, and Ca from the trees was usually greater on the more productive site than on the poorer one. In general, the fertilization treatment was correlated with increasing amounts of P, K, and Ca leached, whereas the irrigation treatment was correlated with decreasing amounts of P, K, and Ca leached. For Mg, leaching was consistently greater on the poorer site than on the more productive one; further, it was greatest on the control plots and least on plots both fertilized and irrigated. Gross precipitation of 61.26 cm contained P, K, Ca, and Mg in amounts of 0.33, 0.84, 2.96, and 0.83 kg per ha, respectively. Volumes of both throughfall and stemflow were significantly affected by site conditions. Although throughfall was not affected by treatment, stemflow varied significantly according to plot treatment and was also highly and positively correlated with tree diameter. Stemflow accounted for about 2 per cent of the total water volume collected beneath the canopies, and contained, on a relative basis, considerably less P, an equivalent amount of K, twice as much Mg, and four times as much Ca as throughfall. Contribution of the Northeastern Forest Experiment Station, Forest Service, USDA, and Department of Silviculture and Forest Influences, State University of New York College of Environmental Science and Forestry, Syracuse, New York, 13210.