东北林业大学学报
東北林業大學學報
동북임업대학학보
JOURNAL OF NORTHEAST FORESTRY UNIVERSITY
2010年
3期
66-68
,共3页
陈步峰%吴敏%潘勇军%肖以华%张娜%徐锰
陳步峰%吳敏%潘勇軍%肖以華%張娜%徐錳
진보봉%오민%반용군%초이화%장나%서맹
珠三角%城市林带森林群落%生物吸储%生态效应
珠三角%城市林帶森林群落%生物吸儲%生態效應
주삼각%성시림대삼림군락%생물흡저%생태효응
Zhujiang delta%Urban forest communities%Bio-absorption and reserves%Ecological effects
为了科学地计量、评估城市森林的生态效应,采用群落生态学和植物化学监测的研究方法,对广州市城市典型林带森林群落地上年增生物量及吸储C、N、S、Pb、Cd、Cu、Hg的生态效应进行了定位观测研究,结果表明:6年生林带森林群落地上生物固碳量平均达39.6t·hm~(-2),年均生物量增加13.7t·hm~(-2)、年净吸储CO_2223.5t·hm~(-2);群落地上生物吸储氮、硫的质量分别达到299.1,63.91kg·hm~(-2),高出3年生林分的11.8倍以上;换算成地上生物年均吸储NO_2、SO_2质量分别为162.3,20.3 hm~(-2),分别是3年生林分的5.3、5.5倍;群落对痕量元素Pb、Cd、Cu、Hg的吸储效应同样是6年生林分较高.6年生林带森林群落地上树干中有机C、Cu、Pb、Cd的储量分布占器官总储量的37.0%以上,C接近60%.同时,枝中C、Cu、Cd元素的质量储量较叶高,而群落的叶中N、S、Hg的质量储量显著高出树干、树枝,占地上器官总储量的44%以上,表明6年生林带森林群落叶体吸储这3种元素的单位含量较高,即这些元素向叶体的生理迁移积累速率较高.城市林带森林群落的吸储效应可有效地减少这些元素可能随地表径流输出至生活环境的危害,缓解在土壤中长期积累而构成的污染负荷,对于城市环境区域非常有益.
為瞭科學地計量、評估城市森林的生態效應,採用群落生態學和植物化學鑑測的研究方法,對廣州市城市典型林帶森林群落地上年增生物量及吸儲C、N、S、Pb、Cd、Cu、Hg的生態效應進行瞭定位觀測研究,結果錶明:6年生林帶森林群落地上生物固碳量平均達39.6t·hm~(-2),年均生物量增加13.7t·hm~(-2)、年淨吸儲CO_2223.5t·hm~(-2);群落地上生物吸儲氮、硫的質量分彆達到299.1,63.91kg·hm~(-2),高齣3年生林分的11.8倍以上;換算成地上生物年均吸儲NO_2、SO_2質量分彆為162.3,20.3 hm~(-2),分彆是3年生林分的5.3、5.5倍;群落對痕量元素Pb、Cd、Cu、Hg的吸儲效應同樣是6年生林分較高.6年生林帶森林群落地上樹榦中有機C、Cu、Pb、Cd的儲量分佈佔器官總儲量的37.0%以上,C接近60%.同時,枝中C、Cu、Cd元素的質量儲量較葉高,而群落的葉中N、S、Hg的質量儲量顯著高齣樹榦、樹枝,佔地上器官總儲量的44%以上,錶明6年生林帶森林群落葉體吸儲這3種元素的單位含量較高,即這些元素嚮葉體的生理遷移積纍速率較高.城市林帶森林群落的吸儲效應可有效地減少這些元素可能隨地錶徑流輸齣至生活環境的危害,緩解在土壤中長期積纍而構成的汙染負荷,對于城市環境區域非常有益.
위료과학지계량、평고성시삼림적생태효응,채용군락생태학화식물화학감측적연구방법,대엄주시성시전형림대삼림군락지상년증생물량급흡저C、N、S、Pb、Cd、Cu、Hg적생태효응진행료정위관측연구,결과표명:6년생림대삼림군락지상생물고탄량평균체39.6t·hm~(-2),년균생물량증가13.7t·hm~(-2)、년정흡저CO_2223.5t·hm~(-2);군락지상생물흡저담、류적질량분별체도299.1,63.91kg·hm~(-2),고출3년생림분적11.8배이상;환산성지상생물년균흡저NO_2、SO_2질량분별위162.3,20.3 hm~(-2),분별시3년생림분적5.3、5.5배;군락대흔량원소Pb、Cd、Cu、Hg적흡저효응동양시6년생림분교고.6년생림대삼림군락지상수간중유궤C、Cu、Pb、Cd적저량분포점기관총저량적37.0%이상,C접근60%.동시,지중C、Cu、Cd원소적질량저량교협고,이군락적협중N、S、Hg적질량저량현저고출수간、수지,점지상기관총저량적44%이상,표명6년생림대삼림군락협체흡저저3충원소적단위함량교고,즉저사원소향협체적생리천이적루속솔교고.성시림대삼림군락적흡저효응가유효지감소저사원소가능수지표경류수출지생활배경적위해,완해재토양중장기적루이구성적오염부하,대우성시배경구역비상유익.
Annual increase of biomass and bio-reserve of elements in woodland of typical urban forest communities was studiedby means of the community ecology aimed to estimate ecological effects of urban forests in Guangzhou. Result indicatedthat bio-fixed mass of C, N and S in woodland reached 39.6 t · hm~(-2), 299.1 kg · hm~(-2) and 63.9 kg·hm~(-2) respectivelyfor the 6-year-old forest community, which was 11.8, 5.3, and 5.5 times higher than that of the 3-year-old forest community.Mean annual biomass and converted mass of CO_2, NO_2, SO_2 in woodland were remarkable and increased by 13.71·hm~(-2)and 23.5 t·hm~(-2), 162. 3 kg· hm~(-2), and 20. 3 kg·hm~(-2) respectively in the same forest. The fixed weight of C,Cu, Pb and Cd in trunk accounted for 37.0 percent of the total and C was close to 60. 0 percent in the 6-year-old forestcommunity. Moreover, fixed weight of N, S and Hg in leaf occupied 44.0 percent of that of all the aboveground organs inthe same forest, which was a useful token of high transfer velocity of elements in the ecosystem. The bio-fixed effect couldeffectively decrease the burthen of habitat because these elements form pollution along with surface runoff in the urban forest.And the eco-effect is very beneficial for the urban environment.
