湖泊富營養化 的英文怎麼說

中文拼音 [yíngyǎnghuà]
湖泊富營養化 英文
lake eutrophication
  • : 名詞1 (被陸地圍著的大片積水) lake 2 (指湖州) short for huzhou3 (指湖南、湖北) a name referr...
  • : 泊名詞(湖) lake
  • : Ⅰ名詞1. (資源; 財產) wealth 2. (姓氏) a surname Ⅱ形容詞1. (財產多) wealthy; rich 2. (豐富; 多) rich; abundant
  • : Ⅰ動詞1 (謀求) seek 2 (經營; 管理) operate; run; manage Ⅱ名詞1 (軍隊駐扎的地方) camp; barrac...
  • : Ⅰ動詞1 (供養) support; provide for 2 (飼養; 培植) raise; keep; grow 3 (生育) give birth to ...
  • 湖泊 : lakes
  • 營養 : nutrition; nourishment; pabulum; tropho-; troph-; -trophy; -trophic; -trophin
  1. Can we control lake eutrophication by dredging

    底泥疏浚能控制湖泊富營養化
  2. The site provides information resources focusing on limnology , lake management and freshwater benthic ecology , as well as the domain of sustainable development of freshwater and marine eco - systems , including knowledge of limnology, eutrophication, pollutants, lake restoration, as well as other related information

    該網站重點提供有關沼學、管理和淡水底層生態學以及淡水和海洋生態系統可持續發展領域的信息資源,內容包括沼學、、污染物、恢復的知識以及其他有關的信息。
  3. The eutrophication of taihu lake is a representative ecological problem, so it can be controlled by some ecological control. countermeasures, such as resuming aquicolous vegetation, restricting the area of breed aquatics in the taihu lake, biologically manipulating alga, building ecological agriculture section around the taihu lake and resuming the zoology of taihu bank

    是典型的生態問題,因此可通過恢復水生植被,限制網圍殖面積,實施生物操縱控藻,建設環生態農業區,恢復濱帶生態等生態防治對策加以控制。
  4. Bioremediation of eutrophied lakes in china

    中國的生物修復
  5. It was widely used in the treatment of black - odors river, eutrophic lake, industrial wastewater and agriculture , maintain lawn in golf course, sterilization and purify in middle water recycle, aquarium and landscape water, aquiculture, natatorium and so on

    在黑臭河涌治理、湖泊富營養化治理、工業廢水處理,高爾夫球場草坪護以及中水回用殺菌凈、水族、景觀水、水產殖、泳池的殺菌消毒治理等領域得到廣泛應用。
  6. Application of grey clustering method in eutrophication assessment for lake water

    應用灰色聚類法評價水體
  7. As a consequense of eutrophication, chironomid larvae excessively propagates in water sources, such as reservoir and fresh lake, which induced the 1st instar larvae of chironomid in source water to enter drinking water treatment system

    水體使得搖蚊幼蟲在水庫、類水源中大量孳生繁殖,直接導致其可以在給水處理系統中出現。
  8. Refer to the methods of eutrophical prevention and cure in lakes, we discussed the status of aquatic plants in utilization as well as the measures to keep the healthy quality of water scenery

    借鑒大型湖泊富營養化問題的防治,本文還探討了水生植物的應用地位及在景觀水體水質維持中的措施。
  9. In general, if the ratio was more than 14 : 1, phosphorus was thought as the limiting factor of lake eutrophication and this, it can be concluded that, affected the growth of phytoplankton in qiandaohu lake

    通常認為, tn tp 14的,磷是水體的限制因子。因此可以認為磷是千島浮遊藻類生長的限制性因子。
  10. As the agricultural nfs is the most important factor for water environmental deterioration and lake eutrophication in china, more and more scientists and technologists focus on the control countermeasurc and pollution mechanism of agricultural non - point source ( nfs ). based on the investigation of natural resource and agricultural distribution, the loss rule of nitrogen and phosphorus in the typical land of qiandao lake watershed and distribution rule of the phytoplankton and physico - chemical characteristic in the lake were studied, and the input loading of nitrogen and phosphorus was also calculated by the annagnps model in this thesis. according to the routine monitoring data of the water environment in qiandao lake from 1989 to 2001, the concentrations of toxic substance and heavy metal were under the monitoring limit, but the total nitrogen ( tn ) and total phosphorus ( tp ) were much higher than the criterion for lake and reservoir

    本文調查了千島流域的自然資源和農業生產情況,研究了典型坡地降雨徑流中的氮、磷污染物的輸出規律,利用annagnps模型估算流域農業非點源污染物輸入負荷,並在千島內設點采樣,對水質理指標和浮游植物群落進行系統的研究,得出以下結論: 1989 2001年間的水環境常規監測資料統計分析表明,有毒物質和重金屬濃度長期在監測下限內, no _ 2 - n 、 no _ 3 - n 、 nh _ 3 - n年平均濃度均符合類標準,但水庫特定項目tn和tp濃度分別為超類和類,呈嚴重超標狀況,區主要污染因子是將導致的物質tn和tp 。
  11. The control of lake eutrophication is a urgent task that is very important and complicated

    湖泊富營養化的控制是一項十分重要、十分復雜,同時又是十分迫切的任務。
  12. Application of principal component analysis in the comprehensive evaluation on high eutrophication of lakes

    主成分分析在湖泊富營養化污染程度綜合評價中的應用
  13. Study on evaluation of eutrophication of lakes based on fuzzy neural network

    利用模糊神經網路對湖泊富營養化程度進行評價的研究
  14. Mis framework on comprehensive integration of lake eutrophication control techniques

    基於湖泊富營養化控制技術綜合集成的管理信息系統框架研究
  15. Application of matter element model based on entropy weight to evaluation of eutrophication of lakes

    熵權物元分析模型在湖泊富營養化評價中的應用
  16. The sediment has an important effect on eutrophication process of lake as the interior load source of nutriment of lake

    沉積物作為物質的內負荷源,對湖泊富營養化進程產生著重要的影響。
  17. Abstract : since lake eutrophication was first taken into consideration, scientists had managed to simulate the appearance of lake eutrophication, predict the response of lakes to different management through mathematical models, thereby determining the proper means for management

    文摘:自從湖泊富營養化引起人類注意以來,科學家們就設法通過使用數學模型來模擬湖泊富營養化的發生,預測對不同管理措施的響應,以便找出合理的治理措施。
  18. In general, three developing phases of models of lake eutrophication have been arisen : ( 1 ) single limited factor models, such as the phosphorus model. ( 2 ) models of multiple limited factors, such as models for predicting the primary production of phytoplankton. ( 3 ) eco - dynamic models, which are the main developing trend of lake models at present and for the future

    總的來說,湖泊富營養化模型大概經歷了以下三個發展階段: ( 1 )單限制因子模型,如磷模型; ( 2 )多限制因子模型,如浮游植物初級生產力估測模型; ( 3 )生態動力學模型,它是目前也是以後發展的主流。
  19. Application of attribute recognition theoretical model to evaluation of lake eutrophication

    屬性識別理論模型在水質評價中的應用
  20. Lake surrounding economic zone : the zone is a dryland part within the proposed ecosystem function area, which has the potential to develop eco - economic, protect the water quality in the ecosystem function area, to control eutrophication and water quality deterioration, and to regulate inner land flood

    生態經濟區:在生態功能保護區規劃區域內的陸域部分,具有發展生態經濟、保護生態功能區的水環境質量,控制湖泊富營養化和水質惡,以及調蓄內澇的生態功能。
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