適鹽微生物 的英文怎麼說
中文拼音 [shìyánwéishēngwù]
適鹽微生物
英文
halophile-
The results of the experimental tests show that nh4cl and k2hpo4, kh2po4 are the most available nutrents to our isolates when they are degrading oils. the most suitable experinment condition is : temperature being 30 c, initial ph being 7 - 8, the shaking rate of the culture flasks is 180 r / min, the concentration of nacl is 1 %. the biodegradation results have shown that our 6 isolates have the effective degradation capability to crude oil ; within 6 days the transforing rate of oil by each single strain is more than 60 %
本研究分離出的6株菌,初步鑒定結果為: sy1為微桿菌屬、 sy2為諾卡氏菌屬、 sy3和sy5為假單胞菌屬、 sy4和sy6為芽孢桿菌屬;實驗結果表明, 6菌株的最佳氮源為氯化銨( nh _ 4cl ) ,最佳磷源為磷酸氫二鉀和磷酸二氫鉀的混合物,最適生長條件為:溫度為30 ,初始ph值為7 8 ,搖床轉速為180r min ,鹽( nacl )濃度為1 ;通過降解實驗得出6株菌對原油都有較強的降解能力,單一菌株在5天後的原油降解率都高於60 , 6株菌對原油的生物降解反應符合一級反應動力學特徵。The results of two fized position researches show that the output and productive value of vegetable are all promoted, especially the quality of agricultural products if improved and the pollution of nitrate is reduced by adding the good quality microfertilizers, combinating the microfertilizer, organic fertilizer and inorganic feilizer, and reducing the amount of chemical fertilizer
摘要兩項田間定位試驗結果表明,蔬菜生產上,適當減少化肥用量、增施優質微生物菌肥、微生物菌肥與化肥和有機肥配施等施肥技術均提高蔬菜產量和產值,尤其對降低硝酸鹽含量效果明顯。At suitable range of nutrition, hydrodictyon reticulatum can obtain dominance of resource competition at initial stages, because it has more capability in absortion and utilization of resource than that of microalga, which reduces the resource utilization of microalga and restrains overgrowth of microalga in a degree
在適宜的營養鹽濃度范圍內,由於供試的水網藻對營養物質的吸收利用能力大於微藻對營養物質的吸收利用能力:因此,水網藻能在富營養化的初期階段的資源競爭中占據優勢,並盡可能減少微藻對資源的利用量,這可在一定程度上抑制微藻的過度生長。Proteome techniques have widely been applied to the fields of plant genetics, plant development, and plant physiology and ecology to investigate plant genetic diversity, plant development such as seed maturation and germination processes, differentiation of plant tissue and organ, separation and functional identification of novel component of various organells, mechanisms of plant adapted to abiotic or biotic stresses including high temperature, low temperature, high salt, drought, and pathogens and insects, and interaction of plant with microbe
摘要蛋白質組技術已廣泛應用於植物遺傳、發育和生理生態等諸多生物學領域,主要研究植物的遺傳多樣性、植物發育(如種子成熟與發芽過程) 、組織器官的分化過程、不同亞細胞結構的新蛋白組分的發現及其功能鑒定、植物對非生物逆境(包括高溫、低溫、高鹽和乾旱等)和生物逆境(病蟲害)的適應機制和植物與微生物(根瘤共生體)相互作用機制。分享友人