[Objective] The aim was to evaluate the eco-geochemical characteristics and geochemistry conditions of root soil in muskmelon planting area, evaluate the soil environment quality in Hetao irrigation area and provide s...[Objective] The aim was to evaluate the eco-geochemical characteristics and geochemistry conditions of root soil in muskmelon planting area, evaluate the soil environment quality in Hetao irrigation area and provide scientific basis for the musmelon planting in this area. [Method] Root system soil sample and plow pan sample were collected from the main muskmelon planting area in Hetao irrigation area, so as to analyze the contents of heavy metal elements. By comparing with the Soft Environmental Quality Standard (GB15618-1995), the research explored whether the heavy metal elements in root system met the national standard. [Result] Heavy metal elements in root system soil had the maximum content in recession area of Yellow River, followed by saline soils. The content of heavy metal elements in chestnut-brown soil was the minimum. Harmful elements As, Cd, Hg, F and Pb in anthropogenic-alluvial soil of Hetao irrigation area showed enrichment characteristics in earth surface, with zonality vertically. Trace elements Cu and Zn, and beneficial elements P, K20, CaO, MgO and Se showed depletion. In anthropogenic-aUuvial soil of Ulansuhai of the Yellow River, harmful elements As and Cd showed significant enrichment in root system soil, while other elements showed depletion or was close to background value. In soil of plow pan, both beneficial component and harmful component showed enrichment characteristics. [Conclusion] Hetao irrigation area has the ideal geochemical conditions and heavy metal elements in muskmelon area meet the national standards.展开更多
Abstraet: Phlebopus portentosus (Berk. and Broome) Boedijn is a favored wild edible mushroom in the Xishuangbanna region, Yunnan, China and Northern Thailand. It belongs to Boletinellaceae family and is known as "...Abstraet: Phlebopus portentosus (Berk. and Broome) Boedijn is a favored wild edible mushroom in the Xishuangbanna region, Yunnan, China and Northern Thailand. It belongs to Boletinellaceae family and is known as "black bolete". Its ecological habits and biotrophy are very complicated. It can be saprobic and successfully cultivated in mushroom house conditions. More often it grows closely with many plants, but is not mycorrhizal fungus. It forms a tripartite association with root mealy bugs and plants. The fungus produces special fungus-insect gall with the soil mealy bugs, which is a symbiotic association between these two creatures. The gall grows on plant roots with parasitic tendency. This paper is a compact report of the findings, including taxonomy, ecology, economic and cultivation of this mushroom.展开更多
The article discusses the problem of the unity of Ludwig Wittgenstein's philosophy. It is demonstrated that Wittgenstein applied two methods of study. Changes in his philosophy are correlated with modifications in hi...The article discusses the problem of the unity of Ludwig Wittgenstein's philosophy. It is demonstrated that Wittgenstein applied two methods of study. Changes in his philosophy are correlated with modifications in his method of thinking and investigation. In his Tractatus Logico-Philosophicus, the only correct method is logical proposition analysis. In the early 1930s, he transformed his philosophy into a phenomenological description of experience, defining its aim as the development of phenomenological language. After 1933, Wittgenstein recognised the grammatical dimension of language and created tools of grammatical analysis. He introduced the notions of language-games and life forms. His philosophy turned into morphology and a description of human language practice.展开更多
The theory of ecology is based on over 100 a of research and investigation, all centered on aboveground pat-terns and processes. However, as contemporary ecologists are increasingly acknowledging, belowground structur...The theory of ecology is based on over 100 a of research and investigation, all centered on aboveground pat-terns and processes. However, as contemporary ecologists are increasingly acknowledging, belowground structures, func-tions, and processes are some of the most poorly understood areas in ecology. This lack of understanding of belowground ecological processes seriously restricts the advance of global change research. The interdisciplinary field of belowground ecology began to flourish in the 1990s, along with the expan-sion of global change research, and quickly gained momen-tum. Belowground ecology aims to investigate belowground structures, functions, and processes, as well as their rela-tionships with corresponding aboveground features, empha-sizing the responses of belowground systems under global change conditions. Key research areas include root ecology, belowground animals, and soil microorganisms. This review summarizes and analyzes the relationships between above- and belowground ecosystems, root ecology, root biogeogra-phy, belowground biodiversity, as well as research areas with particular challenges and progress. This commentary em-phasizes certain theoretical issues concerning the responses of belowground processes to global change, and concludes that belowground ecology is a critical research priority in the 21st century.展开更多
基金Supported by National Land and Resources Investigation Program(200414200005)~~
文摘[Objective] The aim was to evaluate the eco-geochemical characteristics and geochemistry conditions of root soil in muskmelon planting area, evaluate the soil environment quality in Hetao irrigation area and provide scientific basis for the musmelon planting in this area. [Method] Root system soil sample and plow pan sample were collected from the main muskmelon planting area in Hetao irrigation area, so as to analyze the contents of heavy metal elements. By comparing with the Soft Environmental Quality Standard (GB15618-1995), the research explored whether the heavy metal elements in root system met the national standard. [Result] Heavy metal elements in root system soil had the maximum content in recession area of Yellow River, followed by saline soils. The content of heavy metal elements in chestnut-brown soil was the minimum. Harmful elements As, Cd, Hg, F and Pb in anthropogenic-alluvial soil of Hetao irrigation area showed enrichment characteristics in earth surface, with zonality vertically. Trace elements Cu and Zn, and beneficial elements P, K20, CaO, MgO and Se showed depletion. In anthropogenic-aUuvial soil of Ulansuhai of the Yellow River, harmful elements As and Cd showed significant enrichment in root system soil, while other elements showed depletion or was close to background value. In soil of plow pan, both beneficial component and harmful component showed enrichment characteristics. [Conclusion] Hetao irrigation area has the ideal geochemical conditions and heavy metal elements in muskmelon area meet the national standards.
基金Sincere thanks to Toni Atkinson for her editing of the paper. This study was supported by the Key Project of Applied Basic Research of Yunnan Province (No. 2017FA017), the Funds of Sci-Tech Innovation System Construction for Tropical Crops of Yunnan Province (No. RF2017-10), the Special Fund of Technological Development for Yunnan Institutions (No. 2015DC014), the National Natural Science Foundation of China (No. 31560008) and "Western Light"--Personnel Training Project of the Chinese Academy of Sciences (No. 326). This study was also supported by the New Zealand Institute for Plant & Food Research Ltd..
文摘Abstraet: Phlebopus portentosus (Berk. and Broome) Boedijn is a favored wild edible mushroom in the Xishuangbanna region, Yunnan, China and Northern Thailand. It belongs to Boletinellaceae family and is known as "black bolete". Its ecological habits and biotrophy are very complicated. It can be saprobic and successfully cultivated in mushroom house conditions. More often it grows closely with many plants, but is not mycorrhizal fungus. It forms a tripartite association with root mealy bugs and plants. The fungus produces special fungus-insect gall with the soil mealy bugs, which is a symbiotic association between these two creatures. The gall grows on plant roots with parasitic tendency. This paper is a compact report of the findings, including taxonomy, ecology, economic and cultivation of this mushroom.
文摘The article discusses the problem of the unity of Ludwig Wittgenstein's philosophy. It is demonstrated that Wittgenstein applied two methods of study. Changes in his philosophy are correlated with modifications in his method of thinking and investigation. In his Tractatus Logico-Philosophicus, the only correct method is logical proposition analysis. In the early 1930s, he transformed his philosophy into a phenomenological description of experience, defining its aim as the development of phenomenological language. After 1933, Wittgenstein recognised the grammatical dimension of language and created tools of grammatical analysis. He introduced the notions of language-games and life forms. His philosophy turned into morphology and a description of human language practice.
文摘The theory of ecology is based on over 100 a of research and investigation, all centered on aboveground pat-terns and processes. However, as contemporary ecologists are increasingly acknowledging, belowground structures, func-tions, and processes are some of the most poorly understood areas in ecology. This lack of understanding of belowground ecological processes seriously restricts the advance of global change research. The interdisciplinary field of belowground ecology began to flourish in the 1990s, along with the expan-sion of global change research, and quickly gained momen-tum. Belowground ecology aims to investigate belowground structures, functions, and processes, as well as their rela-tionships with corresponding aboveground features, empha-sizing the responses of belowground systems under global change conditions. Key research areas include root ecology, belowground animals, and soil microorganisms. This review summarizes and analyzes the relationships between above- and belowground ecosystems, root ecology, root biogeogra-phy, belowground biodiversity, as well as research areas with particular challenges and progress. This commentary em-phasizes certain theoretical issues concerning the responses of belowground processes to global change, and concludes that belowground ecology is a critical research priority in the 21st century.
