1) PSB fluid fertilizers
光合细菌液肥
1.
It is feasible for piggery waste water to produce PSB fluid fertilizers.
通过光合细菌(Photosyntheticbacteria,简称PSB)培养试验研究了猪粪便污水光合细菌液肥化技术,并对获得的PSB液肥通过无土栽培和田间小区试验在绿豆插条、番茄和青菜上进行了应用研究。
2) Photosynthetic bacteria liquid
光合细菌菌液
3) photosynthetic bacterial fertilizer
光合菌肥
1.
The effect of different concentrations of urea and photosynthetic bacterial fertilizer on growth and quality of Chinese chive was studied.
以"791"韭菜品种为试材,研究了尿素和光合菌肥不同配施对韭菜生长发育和品质的影响。
4) culture solution of photosynthetic bacteria
光合细菌培养液
1.
The result shows UV-C radiation at a given range of dosage promoted formation of chlorophyll a, chlorophyll b and carotenoid of the cabbage, and that the culture solution of photosynthetic bacteria played a role in isolation and protection from UV-C and facilitated to stabilize the content of chlorophyll a, chlorophyll b and carotenoid formed in the Chinese cabbage.
研究光合细菌培养液对经UV-C照射的白菜幼苗的防护作用。
5) photosynthetic bacteria
光合细菌
1.
Effect of initial substrate concentration on dynamic characteristic of hydrogen production by photosynthetic bacteria;
底物初始浓度对光合细菌产氢动力学特性的影响
2.
Dynamic membrane filtration performance in the solution of photosynthetic bacteria;
光合细菌液中动态膜的过滤特性
3.
Study on decolourization of reactive red X-3B by immobilized photosynthetic bacteria adding chitosan during immobilization process;
壳聚糖在固定化光合细菌处理染料活性艳红X-3B中的应用研究
6) Photosynthetic Bacteria(PSB)
光合细菌
1.
To reduce the poisonous compounds in the breeding ponds,five species of bacteria including(nitrobacteria,) denitrobacteria,photosynthetic bacteria(PSB),thiobacteria and bioflocculation bacteria were screened from the breeding water.
针对养殖水体中因氨态氮、硫化氢和小分子有机酸富营养化引起的污染问题,分离筛选出硝化细菌、反硝化细菌、光合细菌、硫化细菌和生物絮凝菌等具有不同生理功能的污染物治理菌株,经优化配伍制备出性能优良的复合功能菌,结果表明:硝化细菌对氨态氮的去除率达97。
2.
1T) to the growth of Photosynthetic Bacteria(PSB).
1T)的磁处理水对光合细菌生长的影响。
3.
Objective To study the effect of photosynthetic bacteria(PSB) on regulation of lipide in serum.
目的 研究光合细菌对血清中脂质的调节作用。
补充资料:光细菌
光细菌 photobacteria 细菌的一纲。包括全部以 4吡咯环构成卟啉型的各种叶绿素作为光合色素进行光合作用的原核生物。在进行光合作用时,一些释放分子氧的种类归属于生氧光细菌亚纲,另一些不释放分子氧的种类归属于无氧光细菌亚纲。前者包括蓝细菌目(又称蓝绿藻)和原绿菌,后者包括红螺菌目和绿菌。 |
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条