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51.
石油污染土壤降解与土壤的环境关系 总被引:4,自引:0,他引:4
阐述了石油污染土壤的降解与土壤环境的关系;提出如何消除石油污染土壤降解的环境限制因子,为微生物降解石油提供最理想环境,是有效治理石油污染的关键. 相似文献
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本文以西南岩溶地区清镇市为例,采用生态足迹的理论和模型对2005年清镇市区域生态足迹状况进行了测算和分析,并与不同区域进行比较。结果表明:①清镇市2005年的人均生态足迹为2.5440hm2,超过了它的人均生态承载力;②清镇市2005年人均生态赤字为2.1240hm2,表明清镇市处于一种不可持续的发展状态;③清镇市2005年万元GDP生态足迹为2.8139hm2,高于中国西部的平均水平,资源利用为粗放消耗型。针对清镇市生态赤字的状况,提出了缓解该市生态压力、提高生态承载力的建议。 相似文献
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为了探明菜豆中期与后期生长对CO2加富与亏缺灌溉的生理响应,试验设两个CO2水平:正常大气浓度和倍增CO2浓度,两个灌溉水平:自然灌溉12次和亏缺灌溉6次,研究CO2加富及亏缺灌溉对菜豆生长的影响。结果表明,CO2加富显著提高菜豆生长中期株高与干质量,净光合速率(Pn)与胞间CO2浓度(Ci)分别显著降低15.48%、37.67%,气孔导度(Gs)显著提高95.83%,菜豆生长后期的叶绿素a/b(Chla/b)显著提高12.29%,水分利用效率(WUE)显著提高46.51%,Ci显著降低12.87%。CO2加富显著提高亏缺灌溉下生长中期菜豆的株高与干质量,但显著降低根冠比,显著提高叶绿素含量以及Gs;CO2加富下生长后期的核酮糖-1,5-二磷酸羧化酶(Rubisco)及果糖-1,6-二磷酸酶(FBPase)活性分别显著提高78.05%与88.69%,CO2加富使亏缺灌溉下碳酸酐酶(CA)与FBPase活性分别显著提高83.73%与64.84%。综上所述,CO2加富提高菜豆生长中期对亏缺灌溉的适应性,对生长后期影响作用减小。 相似文献
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In field and laboratory experiments, enhanced degradation of the dicarboximide fungicides, iprodione and vinclozolin, was stimulated by only one application of the fungicides in a soil with no previous history of any pesticide input. Field and laboratory studies demonstrated the ease of stimulation by pre-treatment with even very low concentrations of the fungicides (0·5 μg g−1 soil) and at a range of temperatures and soil moisture conditions. Soils that had acquired full enhanced degradation could rapidly degrade fungicide applied at 30 times the recommended field rate. Cross-enhancement of degradation was noted with both fungicides, but not with their common metabolite, 3,5-dichloroaniline. Application of the antibiotics chloramphenicol or rifampicin to soil reduced enhanced degradation to control levels; cycloheximide had no effect. This, together with the inhibitory action of azide, mercuric chloride and repetitive microwaving, indicated that the agent(s) of enhanced degradation was probably bacterial. 相似文献
56.
增加光照及其与改变源库互作对大豆产量构成因素的影响 总被引:8,自引:2,他引:6
生殖生长期间的光照强度是决定大豆产量的关键环境因素.在美国麻省和中国黑龙江两地,通过在不同时期,对不同密度的大豆群体进行增加光照和改变源库处理,研究了两地产量及产量构成因素对增加光照光变化的反应.结果表明,不同时期增加光照光处理的增产效果不同,开花初期和结荚初期增加光照最为明显,花期增加光照增加单株荚粒数,而结荚初期增加光照增加百粒重.鼓粒期增加光照处理,百粒重不同品种在不同密度条件下增产不显著,说明鼓粒期后的光照条件对大豆产量及百粒重的调节有限.在不同的光照条件下,源库在产量形成中的作用不同.在自然光照条件下,剪叶处理产量下降幅度较去荚大,即源在产量形成中更加重要些,而在花期的增加光照处理条件下,库也成为影响产量的重要因子,可见,光照条件在源库关系中起着显著的协调作用. 相似文献
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Marine Remize Frdric Planchon Matthieu Garnier Ai Ning Loh Fabienne Le Grand Antoine Bideau Christophe Lambert Rudolph Corvaisier Aswani Volety Philippe Soudant 《Marine drugs》2022,20(1)
The production of polyunsaturated fatty acids (PUFA) in Tisochrysis lutea was studied using the gradual incorporation of a 13C-enriched isotopic marker, 13CO2, for 24 h during the exponential growth of the algae. The 13C enrichment of eleven fatty acids was followed to understand the synthetic pathways the most likely to form the essential polyunsaturated fatty acids 20:5n-3 (EPA) and 22:6n-3 (DHA) in T. lutea. The fatty acids 16:0, 18:1n-9 + 18:3n-3, 18:2n-6, and 22:5n-6 were the most enriched in 13C. On the contrary, 18:4n-3 and 18:5n-3 were the least enriched in 13C after long chain polyunsaturated fatty acids such as 20:5n-3 or 22:5n-3. The algae appeared to use different routes in parallel to form its polyunsaturated fatty acids. The use of the PKS pathway was hypothesized for polyunsaturated fatty acids with n-6 configuration (such as 22:5n-6) but might also exist for n-3 PUFA (especially 20:5n-3). With regard to the conventional n-3 PUFA pathway, Δ6 desaturation of 18:3n-3 appeared to be the most limiting step for T. lutea, “stopping” at the synthesis of 18:4n-3 and 18:5n-3. These two fatty acids were hypothesized to not undergo any further reaction of elongation and desaturation after being formed and were therefore considered “end-products”. To circumvent this limiting synthetic route, Tisochrysis lutea seemed to have developed an alternative route via Δ8 desaturation to produce longer chain fatty acids such as 20:5n-3 and 22:5n-3. 22:6n-3 presented a lower enrichment and appeared to be produced by a combination of different pathways: the conventional n-3 PUFA pathway by desaturation of 22:5n-3, the alternative route of ω-3 desaturase using 22:5n-6 as precursor, and possibly the PKS pathway. In this study, PKS synthesis looked particularly effective for producing long chain polyunsaturated fatty acids. The rate of enrichment of these compounds hypothetically synthesized by PKS is remarkably fast, making undetectable the 13C incorporation into their precursors. Finally, we identified a protein cluster gathering PKS sequences of proteins that are hypothesized allowing n-3 PUFA synthesis. 相似文献
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60.
Farid Menaa P. A. U. I. Wijesinghe Gobika Thiripuranathar Bushra Uzair Haroon Iqbal Barkat Ali Khan Bouzid Menaa 《Marine drugs》2020,18(12)
Seaweeds are broadly distributed and represent an important source of secondary metabolites (e.g., halogenated compounds, polyphenols) eliciting various pharmacological activities and playing a relevant ecological role in the anti-epibiosis. Importantly, host (as known as basibiont such as algae)–microbe (as known as epibiont such as bacteria) interaction (as known as halobiont) is a driving force for coevolution in the marine environment. Nevertheless, halobionts may be fundamental (harmless) or detrimental (harmful) to the functioning of the host. In addition to biotic factors, abiotic factors (e.g., pH, salinity, temperature, nutrients) regulate halobionts. Spatiotemporal and functional exploration of such dynamic interactions appear crucial. Indeed, environmental stress in a constantly changing ocean may disturb complex mutualistic relations, through mechanisms involving host chemical defense strategies (e.g., secretion of secondary metabolites and antifouling chemicals by quorum sensing). It is worth mentioning that many of bioactive compounds, such as terpenoids, previously attributed to macroalgae are in fact produced or metabolized by their associated microorganisms (e.g., bacteria, fungi, viruses, parasites). Eventually, recent metagenomics analyses suggest that microbes may have acquired seaweed associated genes because of increased seaweed in diets. This article retrospectively reviews pertinent studies on the spatiotemporal and functional seaweed-associated microbiota interactions which can lead to the production of bioactive compounds with high antifouling, theranostic, and biotechnological potential. 相似文献