机构地区:[1]中国林业科学研究院森林生态环境与保护研究所,国家林业局森林生态环境与保护重点实验室,北京100091 [2]中南林业科技大学林学院,长沙410004
出 处:《生态学报》2014年第21期6297-6308,共12页Acta Ecologica Sinica
基 金:国家自然科学基金项目(41230852;41390461);科技部"十二五"农村领域国家科技计划(2012BAD22B030102);中挪合作项目(209696/E10);国家林业局宁夏六盘山森林生态站资助
摘 要:在六盘山香水河小流域,选择6种典型森林样地,测定了2011年生长季的大气降水、穿透水、干流、枯落物渗漏水和主根系层(0—30 cm深)土壤渗漏水的总有机碳(TOC)浓度及其相应的通量变化。结果表明,在降水转化为由穿透雨和干流组成的林下降水中,所有样地的TOC浓度都不同程度地增大;虽然林冠截持使林下降水减小,但因雨水淋洗和与林冠发生碳交换,各样地林下降水携带的生长季TOC通量(kg/hm2)(华北落叶松人工林132.28、华山松次生林106.56、油松人工林94.10、灌木林79.49、桦木林66.52、辽东栎次生林63.01)都比林外降水(53.17)不同程度地明显增大,整体看来,林冠的TOC淋出作用在针叶林很大,在阔叶林较弱。在6种森林样地的枯落物层渗漏水中,其TOC浓度彼此相差不大,平均为24.51 mg/L,高于林冠穿透水的TOC浓度;受枯落物截持部分降水及与枯落物TOC交换的影响,4个样地枯落物渗漏水的TOC通量(kg/hm2)(桦木次生林84.35、野李子灌丛129.35、辽东栎次生林79.21、油松人工林114.93)都比其林下降水TOC通量增加了,但华北落叶松人工林和华山松次生林的TOC通量分别降至90.76和104.90 kg/hm2。在测定的华北落叶松人工林和华山松次生林的主根系层(0—30 cm)土壤渗漏水中,TOC浓度均低于枯落物渗漏水;由于水量减小和与土壤发生碳交换,土壤渗漏水的TOC通量均显著低于枯落物渗漏水,两个林分样地分别降至43.04和66.33 kg/hm2。整体来看,林外降水携带的TOC输入通量在林地TOC输入中占有重要地位,林冠的TOC淋洗使其程度不同地增加TOC通量,枯落物层具有增加或减少TOC通量的作用,但主根系层土壤会显著减少TOC输出通量,所以是固定TOC的重要场所。Both flux and concentration of total organic carbon( TOC) from rain water were documented and analyzed from six regional forests growing in the small watershed of Xiangshuihe inside Liupan Mounatins in NW China during the 2011 growing season.The results indicated that TOC concentration of all six forests was increased in term of rain water under canopy.Although the rain water volume under canopy was decreased due to the canopy interception,the TOC flux carried by the rain water under canopy was increased for all six forests as compared them with that carrying by the open field rainfall( 53.17 kg/hm2) because of carbon exchange or wash out from canopy.The corresponding TOC flux( kg/hm2) of rainwater under canopy was 132.28 for Larix principis-rupprechtii plantation,106.56 for the secondary forest of Pinus armandii,94.10 for the plantation of Pinus tabulaeformis,79.49 for the shrub of Prunus salicina,66.52 for the secondary forest of Betula platyphylla,and 63.01 for the secondary forest of Quercus liaotungesis.The canopy leaching( or wash out) effect of TOC was high for the coniferous forests,but weak for the broad-leaved forests.The difference of TOC concentrations in the leakage under humus layer was low among the six forest types,with an average of 24.51 mg / L,which was still higher than the TOC concentration in throughfall.As an integrated result of the humus interception loss and the TOC exchange with humus layer,the TOC flux carried by the humus leakage was increased than that carried by throughfall for four forests and they were 84.35( kg / hm2) for the stand of Betula platyphylla,129.35 for the bush of Prunus salicina,79.21 for the stand of Quercus liaotungesis,114.93 for the stand of Pinus tabulaeformis,but the TOC flux carried by the humus leakage was decreased to 90.76 and 104.90 kg / hm2 for the stand of Larix principis-rupprechtii and Pinus armandii respectively.In the leakage under the soil layer of main root zone( 0—30 cm),the TOC concentrations were reduced compared with t
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