Paleo-dune deposits have been widely used as a proxy indicator of past dune ac- tivity, which is further used to reconstruct paleoclimates. However, recent studies have criti- cally examined the reproducibility of dun...Paleo-dune deposits have been widely used as a proxy indicator of past dune ac- tivity, which is further used to reconstruct paleoclimates. However, recent studies have criti- cally examined the reproducibility of dune chronologies and the complexity of paleo-dune deposits as paleoenvironmental records. This paper addresses questions on the paleoenvi- ronmental implications of dune chronostratigraphies that have been raised by those reviews, in the specific case of crescentic dunes, using a case study from the Mu Us dune field, north-central China. The processes of turn-over and stabilization of relatively small crescentic dunes are first investigated by observational evidence. In combination with the analysis of a simplified sand preservation model and stratigraphic records, the effect of dune morphody- namics on sand preservation is demonstrated. It is especially evident that thick, nearly in- stantaneously deposited sand units record dune stabilization near the very end of a dune activity episode, while thin sand units may signal the preservation of sand deposited earlier in episodes of activity. Interpreting the distribution of luminescence ages that indicate sand deposition over time is not as simple as assumed in some previous work. Low frequency of sand ages could indicate an interval of either dune field stabilization or extensive dune activity but poor sand preservation. A peak of sand age frequency likely represents a shift in dune field activity towards stabilization, not a peak of active dune extent, especially if it partially overlaps with an independently identified interval of stabilization (e.g. one recorded by pa- leosols). The nature and magnitude of these biases in the distribution of sand ages over time are strongly affected by the magnitude of net sand accumulation, which is in turn related to sand supply, transport capacity and sand availability, and ultimately climate change. Rela- tively short dune stabilization and turn-over time (101 to 102 yrs) indicate that dune geomor- phic processes can quickly respond to short-term disturbance, but the chronology of that response must be interpreted in light of how those processes influence age distributions.展开更多
An investigation on the soil microbe populations from an agricultural inning area at the Pearl River estuary in Guangdong province, China was conducted via high through-put sequencing. The results revealed abundant di...An investigation on the soil microbe populations from an agricultural inning area at the Pearl River estuary in Guangdong province, China was conducted via high through-put sequencing. The results revealed abundant diversity in the soil bacterial and fungal populations. In total, 197103 sequence tags were obtained from soil samples, most of which represented bacterial genera Actinomycetes, Bacillus and Marinobacter, while a majority of 118378 tags obtained were derived from fungal genera Clostridium, Devosia, Bradyrhizobium, Bdellovibrio, Phenylobacterium, Penicillium, and Emericella. Furthermore, nine physiological indexes (pH, available phosphorous, basic-group nitrogen, available potassium, catalase, sucrose, urease, phosphatase, and organic matters) were measured in three soil samples, and the association between these physiological indexes and microbe population composition was examined. The results revealed obvious inter-sample differences associated with ten dominating microbial groups: genera Clostridium, Devosia, Bradyrhizobium, Bdellovibrio, Phenylobacterium, and Penicillium were mainly impacted by pH (with a positive correlation), genera Sphingomonas and Acinetobacter mainly by available phosphorous (positive correlation), and genera Gemmatimonas and Pseudomonas by both pH and available phosphorous (negative correlation). Our study suggested that regulation of microbial species/populations might help improve soil environment to facilitate the growth of crops’ above-ground parts, and this provides practical information for inning agriculture.展开更多
This article intends to provide some perspective on how a normative framework for environmental regulation could be developed in theory.It focuses on the quality of Chinese environmental legislation based on five crit...This article intends to provide some perspective on how a normative framework for environmental regulation could be developed in theory.It focuses on the quality of Chinese environmental legislation based on five criteria,i.e.effectiveness,efficiency,enforceability,proportionality,and clarity.This article then evaluates Chinese current environmental legislation from the perspective of good quality of legislation.In conclusion,this article puts forward several suggestions in order to improve China' s current environmental law.These approaches include establishing integrated legal principles,introducing the public choice theory into law-making process,and choosing environmental instruments in a appropriate way.展开更多
The development of atomically dispersed platinum-based catalysts with high performance and welldefined active site structures is crucial for the commercialization of water electrolysis for hydrogen production.Herein,w...The development of atomically dispersed platinum-based catalysts with high performance and welldefined active site structures is crucial for the commercialization of water electrolysis for hydrogen production.Herein,we propose a coordination dual-shell synergistic regulation mechanism of coal pitchderived carbon-supported single atom Pt-N_(x)O_(y)-S_(1)catalytic sites by a self-assembly-pyrolysis strategy for promoting hydrogen evolution reaction(HER).The Pt-N_(3)O1-S_(1)sites exhibited the highest HER performance,with an overpotential of 92 mV at a current density of 400 mA cm^(-2).At 50 mV,the turnover frequency was 34.04 s^(-1)and the mass activity was 22.83 A mg_(Pt)^(-l),which is 63.4 times that of the 20%Pt/C catalyst.Theoretical calculations revealed that the coordination dual-shell impacts the electronic structure of the Pt atoms and the adsorption strength towards reactants synergistically.The S atoms in the second coordination shell weakened the strength of Pt-N first shell,resulting the more surface valence electrons around Pt atoms,exhibiting the most suitable adsorption free energy and enhancing the adsorption of H^(+)on Pt-N_(3)O_(1)-S_(1)sites,thus enhancing the electrocatalytic HER process by promoting Volmer step.This work reveals that coordination dual-shell synergistic regulation is an effective strategy for enhancing the electrocatalytic reaction process.展开更多
基金Foundation: National Natural Science Foundation of China, No.41501208 The Global Change Program of Ministry of Science and Technology of China, No.2016YFA0600503 The U.S. National Science Foundation, No.ATM-0502489
文摘Paleo-dune deposits have been widely used as a proxy indicator of past dune ac- tivity, which is further used to reconstruct paleoclimates. However, recent studies have criti- cally examined the reproducibility of dune chronologies and the complexity of paleo-dune deposits as paleoenvironmental records. This paper addresses questions on the paleoenvi- ronmental implications of dune chronostratigraphies that have been raised by those reviews, in the specific case of crescentic dunes, using a case study from the Mu Us dune field, north-central China. The processes of turn-over and stabilization of relatively small crescentic dunes are first investigated by observational evidence. In combination with the analysis of a simplified sand preservation model and stratigraphic records, the effect of dune morphody- namics on sand preservation is demonstrated. It is especially evident that thick, nearly in- stantaneously deposited sand units record dune stabilization near the very end of a dune activity episode, while thin sand units may signal the preservation of sand deposited earlier in episodes of activity. Interpreting the distribution of luminescence ages that indicate sand deposition over time is not as simple as assumed in some previous work. Low frequency of sand ages could indicate an interval of either dune field stabilization or extensive dune activity but poor sand preservation. A peak of sand age frequency likely represents a shift in dune field activity towards stabilization, not a peak of active dune extent, especially if it partially overlaps with an independently identified interval of stabilization (e.g. one recorded by pa- leosols). The nature and magnitude of these biases in the distribution of sand ages over time are strongly affected by the magnitude of net sand accumulation, which is in turn related to sand supply, transport capacity and sand availability, and ultimately climate change. Rela- tively short dune stabilization and turn-over time (101 to 102 yrs) indicate that dune geomor- phic processes can quickly respond to short-term disturbance, but the chronology of that response must be interpreted in light of how those processes influence age distributions.
文摘An investigation on the soil microbe populations from an agricultural inning area at the Pearl River estuary in Guangdong province, China was conducted via high through-put sequencing. The results revealed abundant diversity in the soil bacterial and fungal populations. In total, 197103 sequence tags were obtained from soil samples, most of which represented bacterial genera Actinomycetes, Bacillus and Marinobacter, while a majority of 118378 tags obtained were derived from fungal genera Clostridium, Devosia, Bradyrhizobium, Bdellovibrio, Phenylobacterium, Penicillium, and Emericella. Furthermore, nine physiological indexes (pH, available phosphorous, basic-group nitrogen, available potassium, catalase, sucrose, urease, phosphatase, and organic matters) were measured in three soil samples, and the association between these physiological indexes and microbe population composition was examined. The results revealed obvious inter-sample differences associated with ten dominating microbial groups: genera Clostridium, Devosia, Bradyrhizobium, Bdellovibrio, Phenylobacterium, and Penicillium were mainly impacted by pH (with a positive correlation), genera Sphingomonas and Acinetobacter mainly by available phosphorous (positive correlation), and genera Gemmatimonas and Pseudomonas by both pH and available phosphorous (negative correlation). Our study suggested that regulation of microbial species/populations might help improve soil environment to facilitate the growth of crops’ above-ground parts, and this provides practical information for inning agriculture.
基金the staged achievement of National Social Science Project(15CFX053)special fund for social sciences of Southwest Petroleum University 92013RW016
文摘This article intends to provide some perspective on how a normative framework for environmental regulation could be developed in theory.It focuses on the quality of Chinese environmental legislation based on five criteria,i.e.effectiveness,efficiency,enforceability,proportionality,and clarity.This article then evaluates Chinese current environmental legislation from the perspective of good quality of legislation.In conclusion,this article puts forward several suggestions in order to improve China' s current environmental law.These approaches include establishing integrated legal principles,introducing the public choice theory into law-making process,and choosing environmental instruments in a appropriate way.
基金supported by the National Natural Science Foundation of China(22108306,22478432 and 22406191)Taishan Scholars Program of Shandong Province(tsqn201909065)the Natural Science Foundation of Shandong Province(ZR2024JQ004,ZR2021YQ15)。
文摘The development of atomically dispersed platinum-based catalysts with high performance and welldefined active site structures is crucial for the commercialization of water electrolysis for hydrogen production.Herein,we propose a coordination dual-shell synergistic regulation mechanism of coal pitchderived carbon-supported single atom Pt-N_(x)O_(y)-S_(1)catalytic sites by a self-assembly-pyrolysis strategy for promoting hydrogen evolution reaction(HER).The Pt-N_(3)O1-S_(1)sites exhibited the highest HER performance,with an overpotential of 92 mV at a current density of 400 mA cm^(-2).At 50 mV,the turnover frequency was 34.04 s^(-1)and the mass activity was 22.83 A mg_(Pt)^(-l),which is 63.4 times that of the 20%Pt/C catalyst.Theoretical calculations revealed that the coordination dual-shell impacts the electronic structure of the Pt atoms and the adsorption strength towards reactants synergistically.The S atoms in the second coordination shell weakened the strength of Pt-N first shell,resulting the more surface valence electrons around Pt atoms,exhibiting the most suitable adsorption free energy and enhancing the adsorption of H^(+)on Pt-N_(3)O_(1)-S_(1)sites,thus enhancing the electrocatalytic HER process by promoting Volmer step.This work reveals that coordination dual-shell synergistic regulation is an effective strategy for enhancing the electrocatalytic reaction process.
