1) inorganic carbon sources
无机碳源
1.
Effects of inorganic carbon sources on growth of Pinguiococcus pyrenoidosus CCMP 2078;
不同无机碳源对粉核油球藻生长的影响
2) inorganic carbon source structure
无机碳源结构
1.
Isolation and screening from sea water and sediments,and the optimization of electron donor and inorganic carbon source structure were performed for obtaining microbial flora with high efficient inorganic carbon fixation without the light and hydrogen.
通过从海水及其沉积物中分离、筛选,并结合电子供体和无机碳源结构的优化以期获得不用光照与供氢的高效固碳微生物菌群;通过16S rDNA序列分析、比对等手段研究非光合固碳微生物菌群的结构,以期为优化群落配置,进一步提升固碳效率提供理论依据。
3) Organic carbon
有机碳源
1.
Organic carbon source VFAs was produced from the sewage treatment plant sludge by acid fermentationl.
污水经污水厂处理后产生的污泥经过酸性发酵可以生成作为生物有机碳源的VFAs。
4) organic carbon source
有机碳源
1.
Adopting upflow biological aerated filter (BAF) with porous medium-lava as carrier with the nitrification and denitrification characteristics of the reactor with no organic carbon source were studied under the oxygen-limited condition.
采用多孔介质——火山岩为载体的上向流曝气生物滤池(BAF),研究了限制供氧条件下,无有机碳源时反应器的硝化反硝化特性。
2.
This research indicated that two organic carbon sources (glucose and sodium acetate) could significantly stimulate the growth of Microcystis aeruginosa.
本次研究发现在一定的浓度范围内,两种有机碳源(葡萄糖和乙酸钠)均能极显著的促进铜绿微囊藻藻细胞分裂,提高藻细胞密度。
5) Organic carbon sources
有机碳源
1.
The effects of organic carbon sources on photosynethesis and growth of trans hTNF α Synechococcus sp.
研究了不同有机碳源对转hTNF α基因聚球藻70 0 2细胞的生长及光合作用的影响。
2.
flagelliforme cells have the ability of utilizing the organic carbon sources to grow mixotrophically.
采用液体悬浮培养方法研究了有机碳源对发状念珠藻(Nostoc flagelliforme)单体细胞生长及光合作用的影响。
3.
The effect of some organic carbon sources on the growth and photosynthesis of Nannochloropsis sp.
研究了几种有机碳源对Nannochloropsis sp。
6) inorganic carbon
无机碳
1.
Effections of soil organic carbon and soil inorganic carbon under long-term fertilization;
长期施肥对土壤有机碳和无机碳的影响
2.
A Study of Transportion Behaviors of Inorganic Carbon in Huanghe Estuary;
黄河口无机碳输运行为研究
3.
Effects of soil-surface mulching on organic carbon,inorganic carbon and light fraction organic carbon in dryland soil
不同地表覆盖栽培对旱地土壤有机碳、无机碳和轻质有机碳的影响
补充资料:碳标记无机化合物
分子式:
CAS号:
性质:作标记原子的碳同位素除13C外,常用放射性14C。各种碳的标记化合物多以Ba13CO3为起点合成。Ba13CO3,NH4Cl和金属钾熔融反应,用KOH溶液吸收HCN制K13CN。KMnO4氧化K13CN制KO13CN。HClO4与Ba13CO3的悬浮液反应,生成的13CO2经干燥后再用液氮冷冻纯化。13CO2用Mg还原制元素13C,用Zn还原制13CO,碱液吸收可制相应的碳酸盐标记化合物。
CAS号:
性质:作标记原子的碳同位素除13C外,常用放射性14C。各种碳的标记化合物多以Ba13CO3为起点合成。Ba13CO3,NH4Cl和金属钾熔融反应,用KOH溶液吸收HCN制K13CN。KMnO4氧化K13CN制KO13CN。HClO4与Ba13CO3的悬浮液反应,生成的13CO2经干燥后再用液氮冷冻纯化。13CO2用Mg还原制元素13C,用Zn还原制13CO,碱液吸收可制相应的碳酸盐标记化合物。
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