The Microwave Radiation Imager(MWRI),boarded on the FY-3 series satellites:FY-3B,FY-3C,and FY-3D,is the first satellite-based microwave radiometer in China,commencing passive microwave brightness temperature data acqu...The Microwave Radiation Imager(MWRI),boarded on the FY-3 series satellites:FY-3B,FY-3C,and FY-3D,is the first satellite-based microwave radiometer in China,commencing passive microwave brightness temperature data acquisition since 2010.The Advanced Microwave Scanning Radiometer 2(AMSR2) boarded on the Global Change Observation Mission 1st-Water(GCOM-W1),has been operational since 2012.Despite the FY-3 series satellites are equipped with the same MWRI and all MWRIs sharing comparable parameters and configurations as AMSR2,disparities in observation times and satellite platforms result in inconsistencies in the data obtained by different satellites,which further impacting the consistency of retrieved geophysical parameters.To improve the consistency of brightness temperatures from FY-3B,FY-3C,FY-3D/MWRI,and GCOM-W1/AMSR2,cross-calibrations were conducted among brightness temperatures at ten-channel from above four platforms.The consistency of derived snow depth from MWRIs and AMSR2 in China before and after the calibration were also analyzed.The results show that the correlation coefficients of brightness temperatures at all channels between sensors exceed0.98.After cross-calibration,the RMSEs and biases of brightness temperatures at all frequencies and snow depth in China derived from them reduce to varying degrees.The consistencies in both brightness temperatures and snow depth of FY-3B/MWRI,FY-3D/MWRI,and AMSR2 are higher than those of FY-3C and others.These findings advocate for the utilization of cross-calibrated brightness temperatures from FY-3B/MWRI,FY-3D/MWRI,and AMSR2,which share similar satellite overpass time,to derived a long-term snow depth dataset.展开更多
Heat stress is a very universal stress event in recent years.Various lines of evidence in the past literatures indicate that gut microbiota composition is susceptible to variable temperature.A varied microbiota is nec...Heat stress is a very universal stress event in recent years.Various lines of evidence in the past literatures indicate that gut microbiota composition is susceptible to variable temperature.A varied microbiota is necessary for optimal regulation of host signaling pathways and disrupting microbiota-host homeostasis that induces disease pathology.The microbiota-gut-brain axis involves an interactive mode of communication between the microbes colonizing the gut and brain function.This review summarizes the effects of heat stress on intestinal function and microbiota-gut-brain axis.Heat stress negatively affects intestinal immunity and barrier functions.Microbiota-gut-brain axis is involved in the homeostasis of the gut microbiota,at the same time,heat stress affects the metabolites of microbiota which could alter the function of microbiota-gut-brain axis.We aim to bridge the evidence that the microbiota is adapted to survive and thrive in an extreme environment.Additionally,nutritional strategies for alleviating intestinal heat stress are introduced.展开更多
基金supported by the National Natural Science Foun-dation of China(42125604,42171143)Innovative Development Project of China Meteorological Administration(CXFZ 2022J039).
文摘The Microwave Radiation Imager(MWRI),boarded on the FY-3 series satellites:FY-3B,FY-3C,and FY-3D,is the first satellite-based microwave radiometer in China,commencing passive microwave brightness temperature data acquisition since 2010.The Advanced Microwave Scanning Radiometer 2(AMSR2) boarded on the Global Change Observation Mission 1st-Water(GCOM-W1),has been operational since 2012.Despite the FY-3 series satellites are equipped with the same MWRI and all MWRIs sharing comparable parameters and configurations as AMSR2,disparities in observation times and satellite platforms result in inconsistencies in the data obtained by different satellites,which further impacting the consistency of retrieved geophysical parameters.To improve the consistency of brightness temperatures from FY-3B,FY-3C,FY-3D/MWRI,and GCOM-W1/AMSR2,cross-calibrations were conducted among brightness temperatures at ten-channel from above four platforms.The consistency of derived snow depth from MWRIs and AMSR2 in China before and after the calibration were also analyzed.The results show that the correlation coefficients of brightness temperatures at all channels between sensors exceed0.98.After cross-calibration,the RMSEs and biases of brightness temperatures at all frequencies and snow depth in China derived from them reduce to varying degrees.The consistencies in both brightness temperatures and snow depth of FY-3B/MWRI,FY-3D/MWRI,and AMSR2 are higher than those of FY-3C and others.These findings advocate for the utilization of cross-calibrated brightness temperatures from FY-3B/MWRI,FY-3D/MWRI,and AMSR2,which share similar satellite overpass time,to derived a long-term snow depth dataset.
基金supported by National Natural Science Foundation of China(Grant Nos.32022079,31630075,and 31702123)Zhejiang Provincial Natural Science Foundation of China(Grant No.LZ20C170005)Fundamental Research Funds for the Central Universities(Grant No.2020-KYY-517102-0001)。
文摘Heat stress is a very universal stress event in recent years.Various lines of evidence in the past literatures indicate that gut microbiota composition is susceptible to variable temperature.A varied microbiota is necessary for optimal regulation of host signaling pathways and disrupting microbiota-host homeostasis that induces disease pathology.The microbiota-gut-brain axis involves an interactive mode of communication between the microbes colonizing the gut and brain function.This review summarizes the effects of heat stress on intestinal function and microbiota-gut-brain axis.Heat stress negatively affects intestinal immunity and barrier functions.Microbiota-gut-brain axis is involved in the homeostasis of the gut microbiota,at the same time,heat stress affects the metabolites of microbiota which could alter the function of microbiota-gut-brain axis.We aim to bridge the evidence that the microbiota is adapted to survive and thrive in an extreme environment.Additionally,nutritional strategies for alleviating intestinal heat stress are introduced.
