دانلود رایگان مقاله چرخه عنصر به عنوان هموستاز استوکیومتری از میکروارگانیسم خاک

عنوان فارسی
چرخه عنصر به عنوان هموستاز استوکیومتری از میکروارگانیسم های خاک
عنوان انگلیسی
Element cycling as driven by stoichiometric homeostasis of soil microorganisms
صفحات مقاله فارسی
0
صفحات مقاله انگلیسی
8
سال انتشار
2016
نشریه
الزویر - Elsevier
فرمت مقاله انگلیسی
PDF
کد محصول
E393
رشته های مرتبط با این مقاله
شیمی
گرایش های مرتبط با این مقاله
شیمی آلی و شیمی کاربردی و شیمی محیط زیست
مجله
اکولوژی عمومی و کاربردی - Basic and Applied Ecology
دانشگاه
گروه خاک محیط زیست، دانشگاه بایرویت، آلمان
کلمات کلیدی
استوکیومتری، نسبت عنصر، چرخه تخمیر جغرافیایی، راندمان مصرف کربن، بهره وری رشد، زمان تغییر و تبدیل، چرخه مواد مغذی، حاصلخیزی خاک، کانی سازی، متوسط زمان اقامت
۰.۰ (بدون امتیاز)
امتیاز دهید
چکیده

Abstract


Cycling of carbon (C), nitrogen (N) and phosphorus (P) at the ecosystem scale is largely driven by microbial activity. A major factor that controls element cycling is the stoichiometric relationship between the microbial biomass and its substrate. I review recent advances in the field of ecological stoichiometry in terrestrial ecology with emphasis on processes performed by non-mycorrhizal soil microorganisms. The review shows that key processes of element cycling are driven by the property of microorganisms to maintain their biomass element ratio by (I) adjusting rates of element acquisition processes (organic matter decomposition, N2 fixation and P solubilization) in order to acquire missing elements, and by (II) adjusting element partitioning and turnover times of elements in the microbial biomass to ratios of available elements. The review also shows that turnover times of elements in the microbial biomass have been neglected in ecological stoichiometry so far, although they are likely of high importance for microorganisms that thrive on substrates with extremely high C:nutrient ratios. Long turnover times of nutrients in the microbial biomass may explain why net nutrient mineralization also occurs at very high substrate C:nutrient ratios. In conclusion, ecological stoichiometry provides a conceptual framework for predicting relationships between the cycling of several key elements at the ecosystem scale, whose potential has not fully been exploited in terrestrial ecology yet.

نتیجه گیری

Conclusion


ES provides a conceptual framework that allows for integrating several key processes of element cycling.Being based on element ratios, which by definition are dimensionless, ES offers to compare biological systems across a wide range of spatial scales where quantities differ greatly. This short review of currentresearch showed thatstoichiometric homeostasis of soil microorganisms is a driver of element cycling in terrestrial ecosystems. Processes of terrestrial element cycling can be predicted based on the ratio of elements in the environment and element partitioning and turnover of elements in the microbial biomass. Moreover, the review shows that turnover times of elementsin the microbial biomass have been rather neglected in ES so far, although they might be of importance for microorganisms that thrive on substrates with extremely high C:nutrient ratios, and may explain why net nutrient mineralization also occurs at very high substrate C:nutrientratios. Taken together, ES offers a conceptual basis for predicting the cycling of several key elements that still has not fully been exploited in the study of element cycling in terrestrial ecosystems yet.


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