富营养的

The effects of environmental factors on the growth and associated aspects of Red tide alga are reviewed in this paper.

本文从水体富营养、微量元素等五个方面论述了环境因子对赤潮藻类增殖及演替等相关特性的影响。

There is no question that yogurt is one of the most nutritious foods on the planet.

毫无疑问，酸牛奶是地球上最富营养的食物之一。

The activitys of Super Oxide Dismutase, peroxidase and Multiple Displacement Amplification of Ceratophyllum demersum L raised rapidly in the late of experiment, and the maximum value of MDA of Ceratophyllum demersum L in the eutrophic condition was 5 time higher than that in the medium nutritional condition, implied that Ceratophyllum demersum L has been stressed in the middle nutritional condition.

金鱼藻超氧歧化酶活性、过氧化物酶活性和丙二醛含量在试验后期上升速度加快，且富营养水平下金鱼藻MDA质量分数的最大值是中营养水平下最大值的5倍，表明在中营养水平下金鱼藻已经受到明显胁迫，而在富营养水平下受到胁迫更为显著。

The results showed that during the 45 days experimental time the fresh weigh of Myriophyllum spicatum L, Hydrilla verticillata L and Cerato-phyllum demersum L were 0.92 g, 0.27 g, 1.11 g and 0.56 g, 0.41 g, 0.87 g in medium nutritional condition TN 1.86 mgL^(-1; TP0.087 mgL^(-1) and eutrophic condition TN 2.47 mgL^(-1; TP0.16 mgL^(-1), respectively. The largest single plant biomass of Myrio-phyllum spicatum L and Ceratophyllum demersum L in in middle nutritional condition were over 39% and 22% higher than those in eutrophicated condition, but that of Hydrilla verticillata L was less than 51%, which shown that Myriophyllum spicatum L and Ceratophyllum demersum L grow better than Hydrilla verticillata L in middle nutritional condition.

研究结果表明，在45 d的培养过程中，狐尾藻、轮叶黑藻和金鱼藻在中营养TN1.86 mgL^(-1； TP0.087 mgL^(-1)和富营养TN2.47 mgL^(-1； TP0.16 mgL^(-1)水平下的单株最大生物量分别是0.92、0.27、1.11、0.56、0.41和0.87 g，狐尾藻和金鱼藻在中营养水平下单株最大生物量分别较富营养水平下高出39%和22%，而黑藻在中营养水平下单株最大生物量较富营养水平下低了51%，表明狐尾藻和金鱼藻在中营养水平下的生长较黑藻好。

Induced by 4℃ low temperature, Escherichia coli inoculated in water can enter the viable but nonculturable state; in the room temperature, Escherichia coli may keep culturable state for a long period; eutrophic culture media of TSA can produce more bacteria count compared with oligotrophic culture media of PCA; evaluating the bacteria count Escherichia coli in water by plate count method may underestimate the risk of intestinal pathogen contamination.

在4℃低温诱导下，大肠埃希菌在水中可进人活的非可培养状态；在室温下，大肠埃希菌在水中可保持较长时间的可培养性；富营养的TSA琼脂检测的菌落数多于寡营养的PCA琼脂；用平板涂布法检测水中的大肠埃希菌可能低估了肠道致病菌污染的风险。

The anatomical structure of root, content of nitrogen and phosphrous, and the activities of peroxidase, superoxide dismutase and catalase of Vallisneria spirolis in oligotropher, mesotropher, eutropher and hypertrophic solutions were investigated with static experiments.

为了解水体富营养化对苦草的胁迫作用，通过静态模拟试验，比较了不同营养水平（贫营养、中营养、富营养、重富营养）培养的苦草根的组织解剖结构、植株氮、磷含量和3种抗氧化酶(POD、SOD、CAT)活性变化。

Hyaluronic acid and evening primrose oil, a concentrated source of linoleic acid, reconditions thirsty skin.

含抗氧化剂、柔软皮肤的脂肪酸及富营养的维他命，有助肌肤愈合及滋润极乾燥的皮肤。

When the TN:TP ratio was 25:1,V.spiralis had the best growth, with a biomass increment being 54% and 31% higher than that when the TN: TP ratio was 12.5:1 and 50:1, respectively, while the growth of periphyton, especially of epiphytic algae, was the worst, giving the least adverse effects on V. spiralis, indicating that a 25:1 of TN:TP ratio in eutrophic water was optimal for the growth of V. spiralis. However, such an optimal TN: TP ratio only worked when the nutrients concentration in eutrophic water was below the limited level, otherwise, it could be failed to be applicable.

结果表明：当TN/TP为25：1时，苦草的生长状态最好，苦草生物量的增长率最大，分别高于TN/TP为12.5：1和50：1时的54%和31%；当TN/TP为25：1时，附着生物尤其是附着藻类的生长状态最差，对苦草生长的不利影响最小；可见，富营养水体中适宜于苦草生长的TN/TP为25：1；TN/TP为25：1这一比例的应用具有相对性，当水体营养浓度低于限制水平时，该比例适用，如果水体中营养盐浓度超过限制水平时，该比例则不适用。

Effect of periphyton on the growth of Elodea nuttalii;2.5:1 and 50:1,respectively,while the growth of periphyton ,especially of epiphytic algae,was the worst,giving the least adverse effects on V.

5：1和50：1时的54%和31%；当TN/TP为25：1时，附着生物尤其是附着藻类的生长状态最差，对苦草生长的不利影响最小；可见，富营养水体中适宜于苦草生长的TN/TP为25：1；TN/TP为25：1这一比例的应用具有相对性，当水体营养浓度低于限制水平时，该比例适用，如果水体中营养盐浓度超过限制水平时，该比例则不适用。

Remaining of the work:Have no money to also master to enjoy the life after going off work, the cabbage turnip adds the soil bean although cheapness, is the food of the most rich nourishment!

工作之余：下班后没钱也要学会享受生活，白菜萝卜加土豆虽然便宜，却是最富营养的食物！

Anabaena：鱼腥藻

但是蓝藻大家族中确实存在着良莠不齐和害群之马的情况,如淡水中的微囊藻(Microcystic)、水华束丝藻(Aphanizomenon)鱼腥藻(Anabaena);海水中的微蓝藻、铜绿微囊藻等也会与甲藻类,在富含氮、磷和有机物的富营养水体(污水)和高温季节,

enriched medium：加富培养基

1) 加富培养基(enriched medium) 根据培养菌种的生理特性加入有利于该种微生物生长繁殖所需要的营养物质,该种微生物则会旺盛地大量生长,如加入血、血清、动植物组织提取液等以培养营养要求比较苛刻的异养微生物.

enrichment medium：富集培养基

3)加富培养基和富集培养基(enrichment medium):在普通培养基(如肉汤蛋白胨培养基)中加入某些特殊营养物质制成的一类营养丰富的培养基. 这些特殊营养物质包括血液、血清、酵母浸膏、动植物组织液等,用来培养营养要求比较苛刻的异养型微生物,

eutrophic：富营养的

eutrophic swamp 滋育木本沼泽 | eutrophic 富营养的 | eutrophication 滋育

hawthorn：山楂

青梅以富酸著称,据分析,其中含有柠檬酸、苹果酸、单宁酸、酒石酸等有机酸16种以上,都有利于人体蛋白质的合成和代谢 山楂: 山楂(Hawthorn)主要产于我国江苏、云南、广西等地,有很高的营养和医疗价值.

semisolid medium：半固体培养基

29.半固体培养基(semisolid medium) 在液态培养基中加入凝固剂的量比固体培养基中的少而制成的半固体状态的培养基. 31.基础培养基(minimum medium) 含有一般微生物生长所需基本营养物质的培养基. 32.加富培养基(enrichment medium) 在基础培养基中加入某些特殊营养物质,

Sepia：乌贼

(一)代表动物--乌贼(Sepia)乌贼俗称墨鱼,渔业捕捞量很大,肉鲜美,富营养. 生活在温暖海洋中,游泳快速,主要以甲壳类为食,也捕食鱼类及其他软体动物等. 漏斗位头的腹侧,基部宽大,隐于外套腔内,其腹面两侧各有一椭圆形的软骨凹陷称闭锁槽(adhering groove).

Chlorococcales：绿球藻目

湖泊中最常见的浮游性绿藻为属於团藻目(Volvocales)、绿球藻目(Chlorococcales)和鼓藻目(Desmidiales)的种类. 团藻目的细胞都具有鞭毛,喜欢生长於富营养性水域,例如实球藻属(Pandorina, 图七);绿球藻目的营养细胞都不具鞭毛,

Leguminosae：豆科

[摘要]紫花苜蓿(MEDICAGO SATIVA) 豆科( LEGUMINOSAE)苜蓿属多年生草本. 又名紫苜蓿、苜蓿. 一种重要的牧草和绿肥兼用作物. 紫花苜蓿富营养,适口性好,易于消化,有"...

Musaceae：芭蕉科

芭蕉科(Musaceae)芭蕉属(Musa)植物,又指其果实,是重要的粮食作物之一,热带地区广泛栽培食用. 香蕉味香、富於营养,终年可收获,在温带地区也很受重视. 植株为大型草本,从根状茎发出,由叶鞘下部形成高3