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991.
零价铁(Fe0)具有高效还原转化多种污染物的能力,但不能实现污染物的矿化作用。微生物与Fe0的协同作用过程,以微生物为主导,Fe0起促进作用,可有效提高多种污染物的降解效率,实现污染物的彻底脱毒与无害化,因此利用微生物协同Fe0氧化进行环境修复具有广阔的应用前景。本文从微生物协同Fe0氧化的作用机理、菌种多样性及其在环境修复中的应用等研究进展进行综述,提出微生物协同Fe0氧化的环境修复研究中存在的主要问题和重点研究方向,以期在更全面、深入地认识这一过程的基础上,充分发挥其在环境修复中的作用。 相似文献
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Selection and development of tree species with high fixing CO2 capacity is an increasing problem worldwide. A comparative study on carbon fixation ability of three forest stands was conducted
at Linlong Mountain, Li’nan County, Zhejiang Province, China. The results showed that total carbon storage in the ecosystems
of Moso bamboo, Chinese fir, and Masson pine stands were 104.83, 95.66, and 96.49 t C/ha, respectively. The spatial distribution
of carbon storage in the three ecosystems decreased in the order: soil > tree story > the vegetation under the forests. Carbon
storage in the soils under Moso bamboo, Chinese fir, and Masson pine stands accounted for 65.3, 61.4, and 55.6% of the total
CSs, respectively. The Moso bamboo forest ecosystem fixed 1.69 and 1.63 times as much C (9.64 t C/ha/year) as the Chinese
fir and Masson pine forest ecosystems, respectively. 相似文献
993.
Dan E. Wells Laura Gutierrez Zhenkang Xu Vladimir Krylov Jaroslav Macha Kerstin P. Blankenburg Matthew Hitchens Larry J. Bellot Mary Spivey Derek L. Stemple Andria Kowis Yuan Ye Shiran Pasternak Jenetta Owen Thu Tran Renata Slavikova Lucie Tumova Tereza Tlapakova Eva Seifertova Steven E. Scherer Amy K. Sater 《Developmental biology》2011,(1):507
We present a genetic map for Xenopus tropicalis, consisting of 2886 Simple Sequence Length Polymorphism (SSLP) markers. Using a bioinformatics-based strategy, we identified unique SSLPs within the X. tropicalis genome. Scaffolds from X. tropicalis genome assembly 2.0 (JGI) were scanned for Simple Sequence Repeats (SSRs); unique SSRs were then tested for amplification and polymorphisms using DNA from inbred Nigerian and Ivory Coast individuals. Thus identified, the SSLPs were genotyped against a mapping cross panel of DNA samples from 190 F2 individuals. Nearly 4000 SSLPs were genotyped, yielding a 2886-marker genetic map consisting of 10 major linkage groups between 73 and 132 cM in length, and 4 smaller linkage groups between 7 and 40 cM. The total effective size of the map is 1658 cM, and the average intermarker distance for each linkage group ranged from 0.27 to 0.75 cM. Fluorescence In Situ Hybridization (FISH) was carried out using probes for genes located on mapped scaffolds to assign linkage groups to chromosomes. Comparisons of this map with the X. tropicalis genome Assembly 4.1 (JGI) indicate that the map provides representation of a minimum of 66% of the X. tropicalis genome, incorporating 758 of the approximately 1300 scaffolds over 100,000 bp. The genetic map and SSLP marker database constitute an essential resource for genetic and genomic analyses in X. tropicalis. 相似文献
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Hui-Zhuo Xu Zhiming Song Shuhua Fu Meili Zhu Yun-Zheng Le 《Journal of ocular biology, diseases, and informatics》2011,4(1-2):83-92
Diabetic retinopathy (DR) is a major complication of diabetes and a leading cause of blindness in working-age Americans. DR is traditionally regarded as a disorder of blood–retina barriers, and the leakage of blood content is a major pathological characteristic of the disease. While the breakdown of the endothelial barrier in DR has been investigated extensively, the vascular leakage through the retinal pigment epithelium (RPE) barrier in the disease has not been widely acknowledged. As the blood content leaked through the RPE barrier causes excessive water influx to the retina, the breakdown of the RPE barrier is likely to play a causative role in the development of some forms of diabetic macular edema, a major cause of vision loss in DR. In this article, we will discuss the clinical evidences of the diabetes-induced RPE barrier breakdown, the alteration of the RPE in diabetes, the molecular and cellular mechanism of RPE barrier breakdown, and the research tools for the analysis of RPE barrier leakage. Finally, we will discuss the methodology and potential applications of our recently developed fluorescent microscopic imaging for the diabetes- or ischemia-induced RPE barrier breakdown in rodents. 相似文献