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131.
氮代谢在滇池水生态系统氮素循环和转化过程中起到重要的作用,不仅真核生物参与氮素转化,原核生物作为氮素循环的主要驱动者,在氮素生物化学循环中的作用更不容忽视.基于16S rDNA高通量测序技术,监测滇池草海和外海区域13个点位,分析滇池水中原核生物氮循环功能关键基因的分布特征.结果发现,滇池水中细菌35门, 427属,主要以变形菌门和拟杆菌门为优势门类;古菌14门, 61属,主要以广古菌门为优势门类;β多样性指数显示滇池整体细菌丰富度指数高于古菌,草海细菌多样性指数高于外海.PICRUSt功能解析表明细菌和古菌具有功能上的丰富性,细菌中有35个参与氮代谢的KO通路,涉及氮异化硝酸盐还原基因nirB、一氧化氮还原酶基因norB和硝酸还原酶基因nasK等关键基因;古菌中有23个参与氮代谢的KO通路,涉及固氮酶基因nifH、nifK和nifD,古菌固氮酶基因拷贝数显著高于其它氮代谢基因,草海中古菌氮代谢能力整体高于外海,滇池水中古菌比细菌固氮潜能更大.本研究从原核生物氮循环中功能基因的角度,探讨滇池不同区域水中细菌和古菌氮循环差异,为进一步揭示氮循环机制,解决氮素污染引起的富营养化提供理论参考. 相似文献
132.
133.
文章通过对内蒙古中西部地区沙生灌木的成分分析,基于生命周期法(LCA),定量论证了沙生灌木直燃发电开发模式对环境的影响和推广的可行性,指出相比石油等传统能源,这种模式具有较大的潜在效益,对于我国发展绿色替代能源,促进西部地区生态环境和经济协调发展具有一定的战略意义。 相似文献
134.
堆肥产品不仅可以作为有机肥或土壤改良剂,还可以在包气带土层防护地下水污染的过程中起到微生物载体的作用.在堆肥中接种菌剂能够加速堆肥进程,促进堆肥材料的腐熟,但是也有研究认为接种剂与堆肥土著微生物的竞争会导致菌剂无法发挥作用.为了阐明菌剂与土著微生物之间的相互作用,采用宏蛋白质组学方法,分析餐厨垃圾堆肥接菌组(木质纤维素混合菌剂)和对照组(未接菌)中功能微生物群落和碳水化合物代谢途径的变化.结果表明:接菌组中假单胞菌目(Pseudomonadales)和散囊菌纲(Eurotiomycetes)菌群的相对丰度比对照组分别提高了12.5%和22.0%,成为优势细菌和真菌,二者在碳水化合物代谢活性上也成为优势菌群.菌剂主要是由芽孢杆菌目(Bacillales)和散囊菌纲的曲霉(Aspergillus)组成,曲霉因具有堆肥系统所需的木质纤维素分解能力而成为优势真菌,而菌剂中的芽孢杆菌虽然数量较多,但是缺乏堆肥系统所需的功能而无法成为优势细菌.餐厨垃圾中易降解物质分解过程中产生的有机酸会导致酸性环境,对照组中能够适应酸性环境的芽孢杆菌目和酵母菌纲(Saccharomycetes)是优势群落,添加菌剂后,堆肥系统中土著的假单胞菌目和散囊菌纲具有较高的碳水化合物代谢活性和多种有机酸转化通路,因此在与菌剂中的芽孢杆菌目和土著的芽孢杆菌及酵母菌的竞争中成为优势菌群.研究显示,外源菌剂与土著微生物之间以及各土著微生物之间都会发生竞争作用,能否成为优势菌群取决于是否适应堆肥底物新陈代谢的变化,因此只要选择好菌剂的功能和接种时机,菌剂就能够发挥原有的作用. 相似文献
135.
O3对水稻叶片氮代谢、脯氨酸和谷胱甘肽含量的影响 总被引:2,自引:0,他引:2
臭氧(O3)被认为是重要的气污染物之一,水稻又是主要的粮食作物,因而准确地评估O3浓度升高对水稻生长发育的影响具有十分重要的意义。采用开顶式气室法模拟研究了O3对水稻叶片可见伤害症状、氮代谢、脯氨酸和谷胱甘肽含量的影响。结果显示,O3污染胁迫会导致水稻叶片产生明显的伤害症状,具体表现为:老叶叶鞘褪绿,有褐斑,直至完全干枯;稻穗小且黄化,籽粒不饱满;水稻成熟期提前等。O3浓度升高对水稻叶片的硝酸还原酶活性有显著影响。当O3浓度为40、80和120nL.L-1时,水稻叶片硝酸还原酶活性与对照组相比均降低,其中,分蘖期分别降低了25.3%、67.4%和86.3%;拔节期分别降低了57.4%、75.7%和97.8%;抽穗期分别降低了91.0%、97.2%和99.3%;乳熟期分别降低了89.5%、89.5%和96.7%。水稻叶片铵态氮和硝态氮含量随着O3浓度的升高而显著地降低,例如当O3浓度为40、80和120nL.L-1时,与对照相比,水稻叶片硝态氮含量分别降低46.3%、52.7%和65.7%,铵态氮含量分别降低6.5%、12.9%和43.4%。O3污染胁迫下水稻叶片脯氨酸含量在不同生长期变化不同,分蘖期、拔节期和抽穗期脯氨酸含量在40nL.L-1浓度O3熏蒸下急剧地提高,但是随着O3浓度的增加,脯氨酸含量又不断地降低。在水稻乳熟期,脯氨酸含量均随着O3浓度的增加而显著地下降。O3污染胁迫导致水稻叶片还原型谷胱甘肽(GSH)含量显著低于对照组,而氧化型谷胱甘肽(GSSG)含量显著高于对照组。当O3浓度为40、80和120nL.L-1时,乳熟期水稻叶片GSH含量分别比对照组降低68.7%、80.2%和78.2%,GSSG含量分别比对照提高494.4%、527.2%和439.8%。研究表明,O3污染胁迫对水稻叶片氮代谢和抗氧化系统产生了极显著的影响。 相似文献
136.
耕种方式对稻田甲烷排放的影响 总被引:5,自引:0,他引:5
通过田间试验研究了稻田2种土壤耕作强度(深翻耕和浅旋耕)和3种水稻栽培方式(直播、抛秧和插秧)下的CH4排放规律,以探讨稻田土壤耕作强度和水稻栽培方式对CH4排放的影响。结果表明,各水稻栽培方式下,深翻耕和浅旋耕稻田CH4排放季节变化趋势一致。土壤耕作强度对稻田CH4季节排放总量的影响受水稻栽培方式的制约:抛秧方式下,浅旋耕与深翻耕处理相比,稻田CH4排放量减少31.37%(P0.05);而直播和插秧方式下,2者CH4季节排放总量相当。水稻栽培方式显著影响稻田CH4排放季节变化规律:直播稻田CH4排放大致呈现"双峰型"模式,且水稻生育前期CH4排放水平较低;而移栽稻田(抛秧和插秧)CH4排放大致呈现"三峰型"模式,且水稻生育前期CH4排放水平较高。与深翻耕抛秧相比,深翻耕直播和深翻耕插秧稻田CH4排放分别减少23.31%和42.51%;而浅旋耕方式下,3种水稻栽培处理CH4季节排放总量相当。降低土壤耕作强度,以浅旋耕代替深翻耕,可以减少耕作对土壤的扰动,在一定程度上减少稻田CH4排放。与水稻移栽相比,水稻直播能够显著降低水稻生育前期CH4排放,具有一定的CH4减排潜力,但仍需加强中后期田间水分管理。 相似文献
137.
138.
Yu X Zhou P Zhou X Liu Y 《Environmental science and pollution research international》2005,12(4):221-226
Background Little is known about metabolism rates of environmental chemicals by vegetation. A good model compound to study the variation
of rates among plant species is cyanide. Vascular plants possess an enzyme system that detoxifies cyanide by converting it
to the amino acid asparagine. Knowledge of the kinetic parameters, the half-saturation constant (Km) and the maximum metabolic
capacity (vmax), is very useful for enzyme characterization and biochemical purposes. The goal of this study is to find the
enzyme kinetics (KM and vmax) during cyanide metabolism in the presence of Chinese vegetation, to provide quantitative data
for engineered phytoremediation, and to investigate the variation of metabolic rates of plants.
Methods Detached leaves (1.0 g fresh weight) from 12 species out of 9 families were kept in glass vessels with 100 mL of aqueous
solution spiked with potassium cyanide at 23°C for 28 h. Four different treatment concentrations of cyanide were used, ranging
from 0.44 to 7.69 mg CN/L. The disappearance of cyanide from the aqueous solution was analyzed spectrophotometrically. Realistic
values of the half-saturation constant (KM) and the maximum metabolic capacity (vmax) were estimated by a computer program
using non-linear regression treatments. As a comparison, Lineweaver-Burk plots were also used to estimate the kinetic parameters.
Results and Discussion The values obtained for KM and vmax varied with plant species. Using non-linear regression treatments, values of vmax and
KM were found in a range between 6.68 and 21.91 mg CN/kg/h and 0.90 to 3.15 mg CN/L, respectively. The highest vmax was by
Chinese elder (Sambucus chinensis), followed by upright hedge-parsley (Torilis japonica). The lowest vmax was demonstrated
by the hybrid willow (Salix matssudana x alba). However, the highest KM was found in the water lily (Nymphea teragona), followed
by the poplar (Populus deltoides Marsh). The lowest KM was demonstrated by corn (Zea mays L.). The values of vmax were normally
distributed with a mean of 13 mg CN/kg/h.
Conclusions Significant removal of cyanide from aqueous solution was observed in the presence of plant materials without phytotoxicity,
even at high doses of cyanide. This gives rise to the conclusion that the Chinese plant species used in this study are all
able to efficiently metabolize cyanide, although with different maximum metabolic capacities. A second conclusion is that
the variation of metabolism rates between species is small. All these plants had a similar KM, indicating the same enzyme
is active in all plants.
Recommendations and Outlook Detoxification of cyanide with trees seems to be a feasible option for cleaning soils and water contaminated with cyanide.
For phytoremediation projects, screening appropriate plant species adapted to local conditions should be seriously considered.
More chemicals should be investigated to find common principles of the metabolism of environmental chemicals by plants. 相似文献
139.
Jens Botterweck Daniela Claßen Thordis Zegarski Christian Gottfroh Roshni Kalathoor Andreas Schäffer 《Journal of environmental science and health. Part. B》2013,48(2):69-78
Extracellular, oxidative soil enzymes like monophenol oxidases and peroxidases play an important role in transformation of xenobiotics and the formation of organic matter in soil. Additionally, these enzymes may be involved in the formation of non-extractable residues (NERs) of xenobiotics during humification processes. To examine this correlation, the fate of the fungicide 14C metalaxyl in soil samples from Ultuna (Sweden) was studied. Using different soil sterilization techniques, it was possible to differentiate between free, immobilized, and abiotic (“pseudoenzyme”-like) oxidative activities. A correlation between the formation of metalaxyl NER and soil organic matter content, biotic activities, as well as extracellular phenoloxidase and peroxidase activities in the bulk soil and its particle size fractions was determined. Extracellular soil-bound enzymes were involved in NER formation (up to 8% of applied radioactivity after 92 days) of the fungicide independently from the presence of living microbes and different distributions of the NER in the soil humic subfractions. 相似文献
140.
Irnazaquin applied in legume crops has a long residual time in soil, which often impacts safety of the susceptible crops. To increase safety of imazaquin application, two composted litters, bovine manure (BM) and chicken manure (CM), were used to determine their effects on imazaquin environmental behavior by incorporating each kind of manure into the tested sandy loam soil at 10% (w/w). The degradation of imazaquin in BM- and CM-amended soil was about 2.4 and 1.5 times, respectively, faster than that in unamended soil. The half-lives of imazaquin in BM-amended soil varied between 6.7 and 15.4 d over the temperature range of 20 to 40℃, and the degradation rate constant (k) increased by a factor of about 1.5 for every 10℃ change. Higher mix ratio did not significantly increase the degradation, and the optimal active degradation of imazaquin was observed approximately at the mix ratio of 10:1 of soil to BM. The different moisture levels had negligible effect on imazaquin degradation. In both unamended and BM-amended treatments, two metabolites were observed at 5, 10 and 30 d after treatment. One metabolite at retention time (RT) of 8.4 rain was identified as 2-(4- hydroxyl-5-oxo-2-imidazolin-2-yl) quinoline acid, originating from the loss of isopropyl group and hydroxylation at the 4-position of imidazolinone ring. The other at RT of 12.9 rain was identified as quinoline-2,3-dicarboxylic anhydride, resulting from detachment of imidazolinone ring and the forming of dicarboxylic anhydride. This finding suggested that the addition of farm litters into soil might be a good management option since it can not only increase soil fertility but also contribute to increase safety of imazaquin application to the following susceptible crops. 相似文献