碳化植物 的英文怎麼說
中文拼音 [tànhuàzhíwù]
碳化植物
英文
carbonate plant-
Carbonized plant remains are commonly abundant.
碳化植物殘余通常是豐富的。The carbon dioxide in the atmosphere is taken up by autotrophic organisms ( mainly green plants ) and incorporated into carbohydrates
在大氣中存在的二氧化碳被自養生物體(主要是綠色植物)所吸收併合成為碳水化合物。The most important carboxylase in plants is ribulose bishosphate carboxylase ( rubisco ), which catalyzes the carboxyation of ribulose bisphosphate, the ‘ carbon - fixing ’ first step in the calvin cycle
在植物中最重要的羧化酶是核酮糖二磷酸羧化酶,它可以羧化核酮糖二磷酸,在卡爾文循環中是二氧化碳固定的第一步。A novel photohormone indole 3 - acetic acid sensor, plant tissue - ferrocene modified carbon paste electrode ( pfmce ), has been developed. the features of the electrode were investigated by cyclic voltammetry and the basic conditions needed for the optimal activity of iaa oxidase were also studied
提出了一種以綠豆芽葉片組織?二茂鐵修飾的碳糊電極作為植物生長激素-吲哚乙酸傳感器的研製方法,探討了影響電極性能的因素,初步研究了iaa氧化酶處于最優活性的基本條件。The standby equipment provides the proper co2 concentration to increase the luxuriate photosynthesis action for plants, reaching to the effect of increasing output and quality
兼用設備為植物提供適宜的二氧化碳濃度,促使植物進行旺盛的光合作用,達到增產和增加品質的效果。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。Sap 1. the solution of mineral salts and sugars that is found in xylem and phloem vessels and oozes out of cut stems
樹液: 1 .是植物木質部與韌皮部管狀分子中存在的含多種無機鹽與碳水化合物的混和溶液,可以從植物莖上的切口處滲出。Ethylene ( ethane ) a gaseous hydrocarbon ( c2h4 ), produced in varying amounts by many plants, that functions as a plant hormone
乙烯:是一種氣態的碳氫化合物( c2h4 ) ,許多植物都可產生。But geochemical studies have suggested that little of the riverine carbon, derived from plants, actually makes it out
但是地球化學的研究卻顯示:河流中的碳,源自植物,實際上很少會流入海洋。Amazon flora, for instance, holds more than 100 billion metric tons of carbon, equal to 15 years of tailpipe and smokestack emissions
例如,亞馬遜植物群含有一千多億噸的二氧化碳,相當于排氣管和煙囪15年的排放量。There were many reports about severe damage of oil tung tree plantation by soz pollution, which lowered down the income of farmers in the mountain area in southern china. therefore, it is very important to know the mechanism of soz affecting on oil tung. soz pollution is a worldwide environment problem, and has been studied over 100 years
So2對于植物生長發育的影響雖有許多研究,但大都是短時間、高濃度處理和破壞性研究為主;對光合機理影響的研究也是以碳同化為主,而對光合能量轉換及其機理影響的研究很少,對樹木的研究也就更少。So it is a potent anticancer drug. this paper study the effect of carbon source, precursor ( phenylalanine, tyrosine, ammonium acetate ) and hydrogen peroxide on biomass, taxol yield of y3 which is endophytic taxol - producing fungi of plant
本文以產紫杉醇植物內生真菌y _ 3菌株為出發菌株,對菌體的生長代謝以及碳源,前體(苯丙氨酸、酪氨酸、乙酸銨)和過氧化氫對生物量、紫杉醇含量的影響進行了研究。Fructan is the main form of carbohydrates temporarily stored in vegetative organs, while starch is one of the main substances long - term stored in plants
果聚糖是植物營養組織碳水化合物的主要暫貯形式;澱粉是植物主要的長期貯存物質之一。Here we summarize the advances in physiology and ecology studies on stored non - structure carbohydrates in plants, concentrating upon the physiological processes of sucrose, fructan, and starch and their responding mechanisms to environmental factors such as temperature and water and human factors
綜述了植物非結構性貯藏碳水化合物的生理生態學研究進展,著重介紹了蔗糖、果聚糖和澱粉代謝的生理過程及對環境因子(溫度和水分)和人為因素的響應機制。Non - structural carbohydrates are important substances involved in plant life processes
摘要非結構性碳水化合物是參與植物生命過程的重要物質。Different low temperature treatments on lilium davidii var. unicolor were used to study the growth and changes of carbohydrate metabolism in bulbs
摘要以蘭州百合為材料,研究了百合種球經不同貯藏溫度處理后,植株生長及鱗莖碳水化合物代謝的變化。The comparison of stomatal parameters in leaf cuticles between two fossil angiosperms from the pliocene in west yunnan and their nearest living equivalent species indicates a little higher atmospheric co2 level at that time than the present, while carbon isotopic composition of fossil cuticles demonstrates much higher carbon isotopic discrimination and slight lower water use efficiency, showing a warmer and wetter climate than today
摘要對滇西騰沖新近紀兩種被子植物葉片及其現存對應種的氣孔參數和碳同位素組成的綜合分析表明:當時的大氣co2濃度略高於現在水平;化石種的碳同位素分餾值高於現存對應種,但水分利用效率低於現存對應種;這證明當時的氣候條件比當前更為溫暖濕潤。These plant communities cover large areas of the globe and function as carbon dioxide sinks, animal habitats, hydrologic flow modulators, and soil conservers, constituting one of the most important aspects of the earth ' s biosphere
這些植物群落覆蓋了全球大部分地區而作用為吸收二氧化碳,動物的棲息地,水流量調節器,土壤保持,組成了地球生物圈很多重要方面之一。This is because in autumn, plant respiration ? the process by which plants produce energy and release carbon dioxide ? occurs more than photosynthesis, the process by which plants absorb carbon for growth
這是因為在秋天,植物的呼吸作用? ?也就是植物生產能量釋放二氧化碳的過程? ?強于光合作用,光合作用是指植物吸收碳進行生長的過程。Based on the research of photosynthetic carbon assimilation in natural habitat, the physiecological features of net photosynthesis ( pn ) and growth of changium smyrnioides wolff and anthriscus sylvestri ( l. ) hoffm were measured under controlled soil water status ( saturation status ( ss ), moderate status ( aw50 ) and dry status ( aw20 ) ), the difference of photosynthesis and transpiration to environmental factors and the adaptation to environmental fluctuation compared, to analyze the mechanism of c. smyrnioides to be endangered
本文在對野外自然條件下瀕危植物明黨參( changiumsmyrnioideswolff )和非瀕危植物峨參光合碳固定能力測定的基礎上,研究了在控制土壤水分條件下明黨參、峨參和另外一種瀕危植物川明參( chuanminshenviolaceum )的光合和生長特點,比較它們的光合、蒸騰等對光照、溫度等環境因子響應及對環境變化適應能力的差異,分析了明黨參瀕危的原因和機理。分享友人