生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2013年
3期
517-522
,共6页
大气氮湿沉降%活性氮化合物通量%降氮强度
大氣氮濕沉降%活性氮化閤物通量%降氮彊度
대기담습침강%활성담화합물통량%강담강도
wet atmospheric nitrogen deposition%flux of active nitrogen compound%nitrogen intensity
雨水的主要成分是水并含有低浓度的含氮化合物,降落在春夏秋3季的雨水对植物生长有一定的影响.雨水除满足植物生理生态需水外,也为植物提供了一定的氮营养.确定雨水中的含氮量多少时空分布状况对植物生长状况的影响不论从环境科学还是植物生长科学都有一定的意义.通过2009—2010年对位于我国辽东半岛最南端的大连市区的雨水连续收集,利用流动分析仪测定雨水中的活性氮化合物含量及变化趋势,可能对生态环境有一定的影响.结果表明:两年的降雨次数分别为34和51次,降雨量分别为687.55和630.22 mm,介于常年年平均降雨量(550~950 mm)的范围内.雨水的总含氮量分别为22.94和41.65 kg·hm-2,总无机含氮量分别为17.67和18.67 kg·hm-2,其中,前1年铵态氮和硝态氮的通量分别为7.99和9.68 kg·hm-2;后1年铵态氮和硝态氮的通量分别为7.72和10.95 kg·hm-2,降雨量大的7和8月份氮沉降通量大,氮沉降通量的变化趋势与降雨量一致.降氮强度各月分布不均,2年的月平均值分别为0.42和0.55 mg·L-1·h-1,总氮的沉降强度按季节排序为冬季>秋季>春季>夏季.随降雨沉降的活性氮化合物可以作为植物生长的氮源,每年平均沉降的总氮相当于使用69.15 kg·hm-2的尿素.一般来说雨水中的无机氮化合物能被植物直接利用,含量多少对不同生态系统产生不同的影响;在农田生态系统有利于作物和杂草的生长,在江河湖海边缘有利于植被的生长,产生富营养化.大连市区2年的月平均降氮质量浓度为4.90 mg·L-1,已远远超出富营养水体中氮质量浓度的阈值,周边水体存在富营养化的隐患.
雨水的主要成分是水併含有低濃度的含氮化閤物,降落在春夏鞦3季的雨水對植物生長有一定的影響.雨水除滿足植物生理生態需水外,也為植物提供瞭一定的氮營養.確定雨水中的含氮量多少時空分佈狀況對植物生長狀況的影響不論從環境科學還是植物生長科學都有一定的意義.通過2009—2010年對位于我國遼東半島最南耑的大連市區的雨水連續收集,利用流動分析儀測定雨水中的活性氮化閤物含量及變化趨勢,可能對生態環境有一定的影響.結果錶明:兩年的降雨次數分彆為34和51次,降雨量分彆為687.55和630.22 mm,介于常年年平均降雨量(550~950 mm)的範圍內.雨水的總含氮量分彆為22.94和41.65 kg·hm-2,總無機含氮量分彆為17.67和18.67 kg·hm-2,其中,前1年銨態氮和硝態氮的通量分彆為7.99和9.68 kg·hm-2;後1年銨態氮和硝態氮的通量分彆為7.72和10.95 kg·hm-2,降雨量大的7和8月份氮沉降通量大,氮沉降通量的變化趨勢與降雨量一緻.降氮彊度各月分佈不均,2年的月平均值分彆為0.42和0.55 mg·L-1·h-1,總氮的沉降彊度按季節排序為鼕季>鞦季>春季>夏季.隨降雨沉降的活性氮化閤物可以作為植物生長的氮源,每年平均沉降的總氮相噹于使用69.15 kg·hm-2的尿素.一般來說雨水中的無機氮化閤物能被植物直接利用,含量多少對不同生態繫統產生不同的影響;在農田生態繫統有利于作物和雜草的生長,在江河湖海邊緣有利于植被的生長,產生富營養化.大連市區2年的月平均降氮質量濃度為4.90 mg·L-1,已遠遠超齣富營養水體中氮質量濃度的閾值,週邊水體存在富營養化的隱患.
우수적주요성분시수병함유저농도적함담화합물,강락재춘하추3계적우수대식물생장유일정적영향.우수제만족식물생리생태수수외,야위식물제공료일정적담영양.학정우수중적함담량다소시공분포상황대식물생장상황적영향불론종배경과학환시식물생장과학도유일정적의의.통과2009—2010년대위우아국료동반도최남단적대련시구적우수련속수집,이용류동분석의측정우수중적활성담화합물함량급변화추세,가능대생태배경유일정적영향.결과표명:량년적강우차수분별위34화51차,강우량분별위687.55화630.22 mm,개우상년년평균강우량(550~950 mm)적범위내.우수적총함담량분별위22.94화41.65 kg·hm-2,총무궤함담량분별위17.67화18.67 kg·hm-2,기중,전1년안태담화초태담적통량분별위7.99화9.68 kg·hm-2;후1년안태담화초태담적통량분별위7.72화10.95 kg·hm-2,강우량대적7화8월빈담침강통량대,담침강통량적변화추세여강우량일치.강담강도각월분포불균,2년적월평균치분별위0.42화0.55 mg·L-1·h-1,총담적침강강도안계절배서위동계>추계>춘계>하계.수강우침강적활성담화합물가이작위식물생장적담원,매년평균침강적총담상당우사용69.15 kg·hm-2적뇨소.일반래설우수중적무궤담화합물능피식물직접이용,함량다소대불동생태계통산생불동적영향;재농전생태계통유리우작물화잡초적생장,재강하호해변연유리우식피적생장,산생부영양화.대련시구2년적월평균강담질량농도위4.90 mg·L-1,이원원초출부영양수체중담질량농도적역치,주변수체존재부영양화적은환.
The rainfall water contains mainly water and low concentration of nitrogen compounds which have certain impacts on plants growing in spring, summer and autumn. Besides rain water demands satisfy plant growing in physiology and ecology water, it also provide for nitrogen nutrition in plant. Regardless of environmental science or plant growing science, it has a certain significance to determine the nitrogen content in the rain water how to affect plant growing at the distributions of spaces and times. Content of atmospheric active nitrogen in precipitation rain was examined in the city of Dalian, the most southern tip of Liaodong Peninsula, China. The wet atmospheric deposition samples were collected continuously in rainy days in the years between in 2009 and 2010, which were measured by rain gauge and analyzed by Continuous Flow Analytical System .It was found that among the two years the rainfall times were 34 and 51 while the precipitation values were 687.55 and 630.22 mm, respectively, which were the range on mean annual precipitation(550-950 mm) in normal years .The total nitrogen contents were 22.94 and 41.65 kg·hm-2 in the years of 2009 and 2010 while the total inorganic nitrogen contents were 17.67 and 18.67 kg·hm-2, for the previous year ,the amount of ammonia nitrogen and nitrate nitrogen were 7.99 and 9.68 kg·hm-2 ,for the after year ,they were 7.72 and 10.95 kg·hm-2. The results showed that the positive correlation of the concentrations of ammonia nitrogen and nitrate nitrogen with the rainfall amount were quite explicit. The nitrogen intensity was different in some months. It in the mean months was 0.42 and 0.55 mg·L-1·h-1 in rain water in the two years, respectively. The order to total nitrogen intensity was:winter>autumn>spring>summer in the seasons The flux of total nitrogen at mean in annual was equal to 69.15 kg·hm-2 usage of CO(NH)2, which was a considerable amount of nitrogen fertilizers. Some inorganic nitrogen compounds can be utilized for plant growing. However, in different ecological systems, they have different influences. They are helpful for crop production on farmland system while they would lead to eutrophication which were harmful to the environment in the edge of rivers and lakes. The monthly average nitrogen concentration in the city of Dalian both in the two years was 4.90 mg·L-1 which had far beyond the threshold of the nitrogen concentration in the eutrophic water body, the surrounding water body has the risk of eutrophication.