礦物土壤 的英文怎麼說
中文拼音 [kuàngwùtǔrǎng]
礦物土壤
英文
mineral soil-
The results indicated that, the total quanlity of major soil microbes declined, of which the minesoils was decreased by 68. 43 % ~ 80. 32 % in the top soil ( 0 - 20cm ) compared with that of the non - minesoils. the proportion of bacteria and actinomyces in the amount microbes decreased, while that of fungi not obviously changed
結果表明:海洲香薷是銅礦區典型的耐銅性植物( elsholtziaharchowensis ) ,植物體中的重金屬元素含量表現為cu zn pb cd , cu與土壤元素的相關性最為顯著,其次為zn 。Fertilizers. fertilizers with declared micronutrient for application to the soil. part 1 : micronutrient under mineral chemical combination form, exclusively
肥料.帶有聲明的微量營養物的土壤肥料.第1部分:只以礦物化學組合形式存在的微量營養元素Mineral composition and chemical characteristics of albic soils in jianghuai drainage basin
江淮流域白漿化土壤的礦物組成與化學特性的研究The intense eluviation and weathering of soil with groundwater and run - off result in the enhancing of capacity of transference of some elements, such as si, al, fe, mn. the chemical reactions of the colloid particles in the soil water make those crannies or holes filled by some epigenetic clay minerals and quartz. then a great deal of white reticulate clay comes into being in the quaternary laterite of the dongting basin
地下水和地表水強烈的淋溶作用使土壤中硅鋁鐵錳等元素的遷移能力增強,土壤膠體粒子之間的化學反應,使得這些孔隙空間在後期逐漸被次生黏土礦物和石英所充填,最終,在洞庭盆地第四系紅土地層中形成大量的蠕蟲狀和根狀白色網紋。It occurs as an exchangeable base in the clay mineral and organic fractions of soils.
鈣是以交換性鹽基在粘土礦物及土壤的有機部分出現的。Designating soil or minerals occurring in flaky layers
板狀的標明片狀層的土壤或礦物的In certain soils, co2 will mineralize for long term capture in addition to the charcoal carbon
在特定的泥土中,二氧化碳可被礦物化,從而可以與木炭的碳一樣被長期固定在土壤中。Fungi form mycorrhizae in plant roots and the hyphae take in carbon from plants through their epidermal cells and move mineral nutrients and water from soil to their epidermal cells ; this symbiosis is of high importance in studying biodiversity conservation, the origins and evolution of terrestrial plant, the rehabilitation and reconstruction of degenerated ecosystems, agriculture, horticulture and forestry
真菌在植物根系形成菌根后,菌絲通過根的皮層細胞獲取植物提供的碳源,同時將礦物營養和水從土壤轉運到皮層細胞,這種共生過程的研究在生物多樣性的保護、陸生植物的起源與演化、退化生態系統的修復與重建以及農業、林業和園藝業的應用具有重要的意義。Mineral stability can depend upon the amount by which the soil is oxygenated.
礦物的穩定度可由土壤中氧化的程度所決定。This paper gives a brief review of four stabilization mechanisms of soc : ( 1 ) recalcitrance of organic carbon compounds, ( 2 ) interactions with metal oxides and soil mineral surfaces, ( 3 ) spatial inaccessibility against decomposers because of micro - aggregate ' s physical protection, and ( 4 ) biological mechanisms, mainly the direct contributions of soil organisms themselves
土壤有機碳的穩定機制主要包括: ( 1 )有機碳的難降解性; ( 2 )金屬氧化物和粘土礦物與有機碳的相互作用; ( 3 )土壤團聚體的物理保護導致的生物與有機碳空間隔離; ( 4 )土壤生物學機制,主要指土壤生物自身對有機碳穩定性的直接貢獻。Heavy metal concentrations in soils and main agronomic crops in restored bayi manganese mine, guangxi
廣西八一錳礦區土壤和主要農作物重金屬含量的研究The amount of major physiological group including ammonifiers, nitrogenfixing bacteria, celluosedecomposing microbes, aerobic nitrogen fixing bacteria and anaerobic nitrogen fixing bacteria all decreased. the activity of soil enzyme weakened which include invertase, urease, proteinase, acid phosphtase, catalase, polyphenol oxidase and peroxidase
結果亦表明,紅壤礦區復墾土壤的微生物生態特徵發生了明顯改變,與對照土壤相比,土壤微生物生物量降低,但微生物商cmic corg 、代謝商qco _ 2值明顯升高( p 0 . 05 ) 。As to the soil basic respiration, the release amounts of co2 decreased, all of which may le d to the degradation of microbes activity in minesoils. relations were analyzed between plants and soils
Biolog結果顯示,紅壤銅礦區復墾土壤微生物的群落結構也發生改變,隨礦區土壤污染加劇,微生物對能源碳的消耗量和速度明顯升高,但利用效率卻降低。The related reports said the main pollution sources of serious environmental cd, pb and as pollution in china were mining and smelting of nonferrous metals, these pollutants were discharged into the environment and caused the pollution of water, atmosphere, soil and biological species and caused a series of acute and chronic diseases in the exposed people, but the relationship between malignant tumors and environmental cadmium, lead, arsenic pollution is not well understood up to now
研究認為有色金屬鎘、鉛、砷對人體有毒害作用;有色金屬礦山的開采和冶煉是環境鎘、鉛、砷污染的主要來源;污染物進入環境后,產生水污染、大氣污染、土壤污染和生物污染,繼而危害暴露人群的身體健康,產生一系列急性和慢性病癥。Soils : investigation and testing - line and or hydraulic binder treated materials - test for assessing the ability of a dry mineral treatment product to emit dust
土壤:調查和檢驗.線性和或液壓粘結處理材料.干礦物處理產品排放粉塵的能力評定試驗Taken two heavy metal contaminated soils in copper mine field of hongtoushan area and lead - zinc mine field of qingchengzi area as sampling sites, studied the abundance and diversity of amf community and the relation of which to ecological factors ; two experiments were managed by pot culture and four - compartments culture system with festuca. rubra and red clover as host plants inoculated with gintraradices, gmosseae and gcaledordinum to study the effect of different amf on the uptake and accumulation of heavy metal in cd contaminated soil and cu > zn - pk cd complex - contaminated soil
採用盆栽、四室根箱培養的方法,研究了接種g . intraradicesg . mosseae和g . caledordinum在cd污染和cu 、 zn 、 pb 、 cd復合污染土壤中對紫羊茅、三葉草吸收、累積重金屬的影響,明確了叢枝菌根菌在重金屬污染土壤生物修復中的作用。主要結果如下: 1 、沈陽礦區重金屬污染土壤中,共發現叢枝菌根菌6個屬23個種,已鑒定22種, 1個未定種。Study on immobilization of heavy metals by geopolymer with blast furnace slag
摻加礦渣的土壤聚合物對重金屬的固化In the paper, a series of the field investigation, laboratory culture and pot experiments were conducted, to study microbial eco - characteristic and restoration in relation to soil - plant system of red soils reclaimed - mine. the main results were summarized as below : 1. soil microbes eco - characteristic in lipu copper mining reclaimed soil - endurance plant system were studied comparatively, zhe jiang province
本論文採用野外礦區調查、實驗室培養和溫室盆栽試驗相結合的方法,對我國南方紅壤礦區土壤的微生物生態特徵及其穩定性恢復進行了研究,以期為礦區重金屬污染及退化土壤微生物生態系統的生物修復及土壤復墾工程提供理論技術依據。Soil quality - determination of particle size distribution in mineral soil material - method by sieving and sedimentation iso 11277 : 1998 iso 11277 : 1998 corrigendum 1 : 2002
土壤質量.礦物土壤材料顆粒尺寸分佈的測定.採用篩分Many researches were done domestic - overseas for the sake of removing the soil environment negative - effect, accelerating the process of soil - reclaimed and slowening the contradiction between population and land. but most of studies were focus on the process of vegetation restoration and engineering technology of mine soil ecological system, rather than underground soil microbes rehabilitation, evolvement and effect on the whole ecological syst em of mine area
為了消除礦區土壤的環境負面效應,加速土壤復墾,緩解人地矛盾,國內外已進行了很多研究,但研究重點一直放在土壤生態系統植被重建過程及工程技術上,而對土壤地下部分微生物恢復、演變及對整個生態系統的影響報道尚少。分享友人