營養鹽 的英文怎麼說
中文拼音 [yíngyǎngyán]
營養鹽
英文
nutrients-
On the base of degrading effect of cm, the paper investigated the correlation between microorganisms and nutrient salt in the water body. it showed that the correlation between ammonifying bacteria and nh3 - n was 0. 74 ; the correlations between nitrifying bacteria, denitrifying bacteria and no _ ( 3 ) - n were 0. 65, - 0. 53, respectively. the correlation between phosphorus bacteria and po _ ( 4 ) ~ ( 3 ) p was 0. 76
根據復合微生物對水質的降解效果,選擇其使用量為2g時,對水體中微生物功能菌群與營養鹽含量的相關性進行了研究,其中氨化菌與氨氮,硝化菌與硝氮,磷細菌與磷酸鹽均成正相關關系,相關性r分別為0 . 74 , 0 . 65 , 0 . 76 。The severe sand dust not only has great effects on the quality of atmosphere environment in cities and on people ' s health, but also can be transported by northwest current to the sea, and exert baneful effects on marine ecosystem
強沙塵天氣不僅對城市大氣環境質量和人體健康產生影響,而且會經西北氣流向海洋輸送和沉降,對海洋中營養鹽的供給和海洋生態系統造成影響。Increases appetite, increases the hatchery of artemia and booming plankton
供給藻類所需營養鹽使浮游生物及藻類增生。There are many salt pans, fish farms and brushwood in the area. currently, all salt pans in sihcao area have been shut down. as there nutrition salt circulation is stable, black - winged stilts and kentish plovers will breed here in summer ; and scolopacidae and ardeidae will gather here in winter
此區多為鹽田、魚瘟、灌木叢,目前四草地區的鹽田已全部停產,由於有穩定的營養鹽循環,夏天會有高蹺行鳥、東方環頸行鳥至此繁殖,冬天則群聚大量的鷸行鳥科、鷺科鳥類。Fortified nutrient salt - fortified nutrient salt with lactoflavin
強化營養鹽.核黃素強化營養鹽The pelagic - benthic coupling is realized by the deposition of phytoplankton and poc into the detritus and the transportation of nutrient elements from the bottom to the pelagic
水層和底棲生態系統的耦合是通過浮游植物與顆粒有機物的沉降和沉積物中營養鹽的再懸浮來實現的。Biological activities are also vigorous at the boundaries of freshwater and shelf water, including the boundaries of water masses and the upwelling areas. the sink of co2 is thus further enlarged
沖淡水帶來了大量的營養鹽,促進了生物活動的發展,必然消耗大量的coz ,使海水成為大氣co :的匯區。Due to the major role played by diatoms in the biological pump of co _ ( 2 ), biogenic silica may has a close coupling in the global carbon cycle
生物硅在整個海洋硅循環中佔有重要地位。在過去的40年中,營養鹽結構的變化已經引起膠州灣生態環境的巨大變化。Due to the influence of the changjiang diluter water, the concentration of phosphate, nitrate and silicate was hi
證實該海域po4一p是比no3一n更重要的營養鹽限制因子。Because of the nutrient load both inside and outside, xuanwu lake became a eutrophic lake ; eutrophication is going to be more serious in the f uture
在巨大的營養鹽內外負荷壓力下,玄武湖處于嚴重富營養化狀態,且存在惡化的趨勢。This article mainly discusses the large - scaled cultural conditions of clone in gametophyte laminaria. it studies the proper temperature, light time, light intensity, the consumption of nitrogen and phosphorus, the cultural state and inoculating density on the growth of gametophytic clone, the experiment of large - scaled culture had been done under comparatively proper conditions, in the same time, we studied the growth rule of gametophytic clone in the cultural process
本文主要探討了海帶配子體克隆的大規模培養條件,對海帶配子體克隆生長的適宜溫度、光照時間、光照強度、營養鹽消耗、培養狀態以及接種密度進行了研究,並在相對適宜條件下進行了大規模培養實驗,同時,對海帶配子體克隆在培養過程中的生長規律進行了研究。During this time both the monthly average algae density and lasting time increased year after year. the main algae forming algae bloom was cyanophyta and the dominant generas were microcystis. the accumulation of nutrients ( such as total nitrogen and total phosphorus ) with high concentration, high temperature of water and strong sunshine caused the algae bloom
結果表明,水溫較高的夏秋季(一般為7 9月)是天津市城市供水水源的藻類高發期;近幾年,高藻期含藻量呈逐年增加趨勢,持續時間呈逐年延長趨勢;高藻期水源水以藍藻為主,所佔藻類總數最高和最低比例分別為91和70 ,其中的優勢屬為微囊藻屬;水源水中高含量的氮、磷等營養鹽是藻類高發的內在因素,水溫、光照等是外在誘發因素。Absorption of n, p nutrients by gracilaria tenuistipitata and its resistant effect on the outbreak of red tide
磷營養鹽的吸收及其對赤潮發生的抑制作用A strain of bloom cyanobacterium ( blue - green alga ), microcystis aeruginosa, which dominated in an eutrophic pond, was isolated and purified for physiological study in laboratory conditions. various environment factors, like light, temperature, nutrient, cu2 +, ect were tested for growth and lexicological effects of m. aeruginosa
在純化培養的基礎上,我們開展了光照、溫度、營養鹽及cu ~ ( 2 + )對該銅綠微囊藻生長及毒理學影響的研究。光照、溫度及營養鹽對銅綠微囊藻生長影響1From the research results, we can see that the initial reason, which leads to the degradation of xuanwu lake ecosystem, is pollution. pollution makes the water and sediments hypertrphiation, increases the opacity of water, and decreases the oxygen in water, so the wetland higher plant communities decrease or disappear. the wetland ecosystem loses the balance, while the biodiversity also decreases
研究結果表明,引起玄武湖濕地生態系統功能退化的初始原因是嚴重的環境污染問題,污染加劇了水體及沉積物中的營養鹽含量,增加了水體的渾濁度,降低了水體中的氧含量,從而導致濕地高等植物群落減少乃至消失,盡而引起濕地生物多樣性下降、生態系統失去平衡。Annual cycle and budgets of nutrients in the bohai sea
渤海氮磷營養鹽的循環和收支Study on growth performance of japanese flounder, paralichthys olivaceus and nutrient status in a recirculating aquaculture system
循環養殖系統中牙鮃生長及營養鹽狀況研究Change of nutrients and present evaluation of water quality in the cage fish culture region of jiantiao at sanmen bay
三門灣健跳網箱養魚區營養鹽的變化及水質現狀評價Fortrified nutrient salt and relevant food additive
強化營養鹽及相關食品添加劑Generally, the model is competent for the simulation of energy flow characteristics of the ecosystem in the yscmw. the analysis of the sensitive tests suggests that the phytoplankton biomass is controlled
對整個黃海冷水團水域營養鹽的循環收支分析結果表明:浮游植物光合作用的吸收是黃海冷水團水域營養鹽的最大損耗項,有機物分解是其重要源項。分享友人