The interaction between three optical solitons is a complex and valuable research direction,which is of practical application for promoting the development of optical communication and all-optical information processi...The interaction between three optical solitons is a complex and valuable research direction,which is of practical application for promoting the development of optical communication and all-optical information processing technology.In this paper,we start from the study of the variable-coefficient coupled higher-order nonlinear Schodinger equation(VCHNLSE),and obtain an analytical three-soliton solution of this equation.Based on the obtained solution,the interaction of the three optical solitons is explored when they are incident from different initial velocities and phases.When the higher-order dispersion and nonlinear functions are sinusoidal,hyperbolic secant,and hyperbolic tangent functions,the transmission properties of three optical solitons before and after interactions are discussed.Besides,this paper achieves effective regulation of amplitude and velocity of optical solitons as well as of the local state of interaction process,and interaction-free transmission of the three optical solitons is obtained with a small spacing.The relevant conclusions of the paper are of great significance in promoting the development of high-speed and large-capacity optical communication,optical signal processing,and optical computing.展开更多
When pursuing femtosecond-scale ultrashort pulse optical communication, one cannot overlook higher-order nonlinear effects. Based on the fundamental theoretical model of the variable coefficient coupled high-order non...When pursuing femtosecond-scale ultrashort pulse optical communication, one cannot overlook higher-order nonlinear effects. Based on the fundamental theoretical model of the variable coefficient coupled high-order nonlinear Schr¨odinger equation, we analytically explore the evolution of optical solitons in the presence of highorder nonlinear effects. Moreover, the interactions between two nearby optical solitons and their transmission in a nonuniform fiber are investigated. The stability of optical soliton transmission and interactions are found to be destroyed to varying degrees due to higher-order nonlinear effects. The outcomes may offer some theoretical references for achieving ultra-high energy optical solitons in the future.展开更多
Common wheat is the major cereal crop that underpins the food safety of China. Both winter wheat and spring wheat are grown on ~24 million ha. This review aims to summarize the current status of wheat production and b...Common wheat is the major cereal crop that underpins the food safety of China. Both winter wheat and spring wheat are grown on ~24 million ha. This review aims to summarize the current status of wheat production and breeding progress in the northern wheat production areas of the country, and to review recently advanced technologies being applied in wheat breeding, including the use of dwarf-male-sterile(DMS) wheat, speed breeding and specialized wheat breeding SNP chips. Crossing is the initial step in most breeding programs. DMS wheat is a convenient tool for large scale production of hybrid seed. Speed breeding or accelerated generation turnover attempts to reduce the time taken in cultivar development. Several different SNP chips are high-throughput, genome-wide genotyping platforms for breeding and research.展开更多
Maize growth,organ development,and yield formation are highly controlled by the manner in which the plant captures,partition,and remobilizes biomass and phosphorus(P).Better understanding of biomass and P accumulation...Maize growth,organ development,and yield formation are highly controlled by the manner in which the plant captures,partition,and remobilizes biomass and phosphorus(P).Better understanding of biomass and P accumulation,partition,and remobilization processes will improve modeling of crop resource use.However,there is still a lack of detailed data to parameterize the modeling of these processes,particula rly for modern maize cultivars.A two-year(2016 and 2017)field experiment with three P fertilization treatments(0(P0),75(P75),and 300(P300)kg P_(2)O_(5)ha^(-1))was conducted on a Fluvo-aquic soil(Quzhou,Hebei province,China)to collect data and quantify key processes for a representative modern maize cultivar(Zhengdan 958)widely grown in China.The proportions of biomass and P partitioned into various maize organs were unaffected by P application rate.Zhengdan 958 showed a much lower leaf-senescence rate than older cultivars,resulting in post-silking leaf photosynthesis being sufficient to meet grain biomass demand.In contrast,50%-85%of leaf P and 15%-50%of stem P accumulated pre-silking were remobilized into grain,in spite of the large proportion of post-silking P uptake.Our results are consistent with the theory that plants use resources according to the priority order of re-allocation from senescence followed by assimilation and uptake,with the re-translocation of reserves last.The results also enabled us to estimate the threshold P concentrations of Zhengdan 958 for modeling crop P demand.The critical leaf P concentration for individual leaves was 0.25%-0.30%,with a corresponding specific leaf P(SLP)of 75-100 mg P m^(-2).The structural P concentration for leaf was 0.01%,corresponding to an SLP of 3.8 mg P m^(-2).The maximum P concentrations of leaves and stems were 0.33%and 0.29%.The residual P concentration for stems was 0.006%.展开更多
Background:Gastrointestinal(GI)injury is one of the most common side effects of radiotherapy.However,there is no ideal therapy method except for symptomatic treatment in the clinic.Xuebijing(XBJ)is a traditional Chine...Background:Gastrointestinal(GI)injury is one of the most common side effects of radiotherapy.However,there is no ideal therapy method except for symptomatic treatment in the clinic.Xuebijing(XBJ)is a traditional Chinese medicine,used to treat sepsis by injection.In this study,the protective effects of XBJ on radiation-i nduced intestinal injury(RⅢ)and its mechanism were explored.Methods:The effect of XBJ on survival of irradiated C57BL/6 mice was monitored.Histological changes including the number of crypts and the length of villi were evaluated by H&E.The expression of Lgr5^(+)intestinal stem cells(ISCs),Ki67^(+)cells,villin and lysozymes were examined by immunohistochemistry.The expression of cytokines in the intestinal crypt was detected by RT-PCR.DNA damage and apoptosis rates in the small intestine were also evaluated by immunofluorescence.Results:In the present study,XBJ improved the survival rate of the mice after 8.0and 9.0 Gy total body irradiation(TBI).XBJ attenuated structural damage of the small intestine,maintained regenerative ability and promoted proliferation and differentiation of crypt cells,decreased apoptosis rate and reduced DNA damage in the intestine.Elevation of IL-6 and TNF-α was limited,but IL-1,TNF-β and IL-10 levels were increased in XBJ-treated group after irradiation.The expression of Bax and p53 were decreased after XBJ treatment.Conclusions:Taken together,XBJ provides a protective effect on RⅢby inhibiting inflammation and blocking p53-related apoptosis pathway.展开更多
In wireless sensor networks, due to the energy and resource constraints, nodes may be unwilling to forward packets for their neighbors. This can render severe deteriorations in the network performance and malfunctions...In wireless sensor networks, due to the energy and resource constraints, nodes may be unwilling to forward packets for their neighbors. This can render severe deteriorations in the network performance and malfunctions of the system. To tackle such selfish behaviors and enhance the cooperation among sensors, based on reputation and energy consumption of each node, we present a utility function to punish the malicious nodes and encourage cooperation among nodes. Specifically, we firstly give a mixed strategy Nash equilibrium solution for the two nodes. Then we extend the model to multi-nodes scenario. With the unity function, each sensor’s reputation is evaluated according to its degree of cooperation. The extensive simulation results have shown the effectiveness of the mechanism, in that the cooperative behaviors are encouraged, which can ensure the normal functioning of the network system.展开更多
Soil salinity is a global threat to the productivity of arable land. With the impact of population growth and development of social economy in China, the area of arable land has been shrinking in recent decades and is...Soil salinity is a global threat to the productivity of arable land. With the impact of population growth and development of social economy in China, the area of arable land has been shrinking in recent decades and is approaching a critical threshold of 120 Mha, the minimum area for maintaining the national food security. Saline-alkaline land, as important backup reserve, has been receiving increased attention as an opportunity to expand land resources. This review first summarizes the general principles and technologies of saline soil reclamation to support plant growth, including leaching salts or blocking the rise of salts, and soil fertility enhancement to improve the buffering capacity.Then the progress in this area in China is described including the customization of technologies and practices used in different saline-alkali regions. Following the soil management strategies, the concept of selecting crops for saline soil is proposed. This encompasses halophyte planting, salt-tolerant crop breeding and the application of saline-adapted functional microorganisms to improve the adaptation of crops. Finally, the current problems and challenges are evaluate, and future research directions and prospects proposed for managing this major soil constraint.展开更多
Soil health is an important component of“One Health”.Soils provide habitat to diverse and abundant organisms.Understanding microbial diversity and functions is essential for building healthy soils towards sustainabl...Soil health is an important component of“One Health”.Soils provide habitat to diverse and abundant organisms.Understanding microbial diversity and functions is essential for building healthy soils towards sustainable agriculture.Arbuscular mycorrhizal fungi(AMF)form potentially symbiotic associations with approximately 80%of land plant species that are well recognized for carbon flux and nutrient cycling.In addition to disentangling the signaling pathways and regulatory mechanisms between the two partners,recent advances in hyphosphere research highlight some emerging roles of AMF and associated microbes in the delivery of soil functions.This paper reviews the contribution of AMF to soil health in agroecosystems,with a major focus on recent progress in the contribution of hyphosphere microbiome to nutrient cycling,carbon sequestration,and soil aggregation.The hyphosphere microbiome and fungal stimulants open avenues for developing new fertilizer formulas to promote AMF benefits.In practice,developing AMF-friendly management strategies will have long-term positive effects on sustainable agriculture aiming at simultaneously providing food security,increasing resource use efficiency,and maintaining environment integrity.展开更多
Background:Limited information exists regarding the impact of severe acute respiratory syndrome-coronavirus-2(SARS-CoV-2)infection on psoriasis patients.The objective of this study was to identify clinical factors ass...Background:Limited information exists regarding the impact of severe acute respiratory syndrome-coronavirus-2(SARS-CoV-2)infection on psoriasis patients.The objective of this study was to identify clinical factors associated with the prognosis of psoriasis following SARS-CoV-2 infection.Methods:A retrospective,multicenter study was conducted between March and May 2023.Univariable and multivariable logistic regression analyses were employed to identify factors associated with coronavirus disease 2019(COVID-19)-related psoriasis outcomes.The study included 2371 psoriasis patients from 12 clinical centers,with 2049 of them having been infected with SARS-CoV-2.Results:Among the infected groups,lower exacerbation rates were observed in individuals treated with biologics compared to those receiving traditional systemic or nonsystemic treatments(22.3%[236/1058]vs.39.8%[92/231]vs.37.5%[140/373],P<0.001).Psoriasis progression with lesions(adjusted odds ratio[OR]=8.197,95%confidence interval[95%CI]=5.685-11.820,compared to no lesions),hypertension(adjusted OR=1.582,95%CI=1.068-2.343),traditional systemic(adjusted OR=1.887,95%CI=1.263-2.818),and nonsystemic treatment(adjusted OR=1.602,95%CI=1.117-2.297)were found to be associated with exacerbation of psoriasis after SARS-CoV-2 infection,but not biologics(adjusted OR=0.931,95%CI=0.680-1.274,compared to no treatment),according to multivariable logistic regression analysis.Conclusions:A reduced risk of psoriasis exacerbation after SARS-CoV-2 infection was observed with biologics compared to traditional systemic and nonsystemic treatments.Significant risk factors for exacerbation after infection were identified as existing psoriatic lesions and hypertension.展开更多
Mycorrhizae are the most widespread symbioses in nature,involving plants and specialized soil fungi.In recent years,mycorrhizal research has made remarkable progress.Breakthroughs in genomics and other modern techniqu...Mycorrhizae are the most widespread symbioses in nature,involving plants and specialized soil fungi.In recent years,mycorrhizal research has made remarkable progress.Breakthroughs in genomics and other modern techniques have opened new windows in multiple domains,such as evolution,physiology,and function of mycorrhizal fungi.展开更多
Healthy soils are vital for the diverse services provided by ecosystems to human society~[1], such as provisioning(food,fiber, timber, and fuel), regulation(climate, disease, and natural hazards), waste treatment, nut...Healthy soils are vital for the diverse services provided by ecosystems to human society~[1], such as provisioning(food,fiber, timber, and fuel), regulation(climate, disease, and natural hazards), waste treatment, nutrient cycling, and cultural services. Soil has a three phase system and the interactions between soil chemical, biological, and physical attributes determine functions(hydraulic, thermal, and gas fluxes).展开更多
Food security is among the most fundamental of national interests and productive farmland is essential for secure grain supply.With the increase of agricultural intensification and the impact of global climate change,...Food security is among the most fundamental of national interests and productive farmland is essential for secure grain supply.With the increase of agricultural intensification and the impact of global climate change,the soil in the earth is facing various degradation problems such as compaction,acidification,and salinity.展开更多
The crucial role of the epidermal function in the regulation of cutaneous and extracutaneous functions has been well demonstrated over the past decades.Epidermal permeability barrier dysfunction enhances epidermal DNA...The crucial role of the epidermal function in the regulation of cutaneous and extracutaneous functions has been well demonstrated over the past decades.Epidermal permeability barrier dysfunction enhances epidermal DNA and lipid synthesis,and cutaneous and systemic inflammation.[1,2]Conversely,improvement in epidermal permeability barrier function inhibits epidermal lipid synthesis,cytokine production,and epidermal proliferation in barrier-disrupted skin.[1,2]Similarly,reduced stratum corneum hydration(SCH)levels can negatively impact epidermal function and increase cytokine levels in the circulation.[3,4]Correspondingly,improvement in epidermal function lowers the circulating levels of proinflammatory cytokines in addition to alleviation and prevention of the relapse of inflammatory skin disorders such as psoriasis.[2,5,6]Interestingly,improvement in epidermal function also mitigates the progression of cognitive impairment in the elderly.[7]Taken together,the evidence indicates the regulatory role of epidermal function in cutaneous and extracutaneous functions.Thus,improvement in epidermal function can benefit the overall human health.展开更多
The fast-growing world population exerts great pressure on the land to produce enough nutritious food. It is projectedthat global population will be 50% greater than at present by 2050 and the demand for global grain ...The fast-growing world population exerts great pressure on the land to produce enough nutritious food. It is projectedthat global population will be 50% greater than at present by 2050 and the demand for global grain will havedoubled[1]. The pressure further intensifies with the stresses resulting from climate change, associated extremeweather[2], and expansion of urbanization. Humanity has already transgressed three of the nine interlinked planetaryboundaries, and agriculture is the major driving force behind this development^1. The agricultural system must betransformed to simultaneously provide global food security and environmental integrity[4]. To address thesechallenges, sustainability in agriculture must be enhanced13,51. This is particularly true for rapidly developingcountries such as China. While intensive, industrial agriculture achieved enormous successes, such as feeding 20%of the global population by producing 25% of the world’s grain with less than 10% of world arable land, theseachievements came at the expense of low resource use efficiency and environmental problems such as airpollution161, water pollution171, and soil acidification[8]. Agriculture in China is facing unprecedented challenges.展开更多
Phosphorus(P)is a non-renewable resource,therefore ensuring global food and environmental security depends upon sustainable P management.To achieve this goal,sustainable P management in the upstream and downstream sec...Phosphorus(P)is a non-renewable resource,therefore ensuring global food and environmental security depends upon sustainable P management.To achieve this goal,sustainable P management in the upstream and downstream sectors of agriculture from mineral extraction to food consumption must be addressed systematically.The innovation and feasibility of P sustainability are highlighted from the perspective of the whole P-based chain,including the mining and processing of P rock,production of P fertilizers,soil and rhizosphere processes involving P,absorption and utilization of P by plants,P in livestock production,as well as flow and management of P at the catchment scale.The paper also emphasizes the importance of recycling P and the current challenges of P recovery.Finally,sustainable solutions of holistic P management are proposed from the perspective of technology improvement with policy support.展开更多
To the Editor:Vitiligo is a chronic disease that impacts many aspects of a patient’s life.The prevalence of vitiligo has been increasing,and currently involves up to 0.5%to 2%of all races worldwide.[1]Although this c...To the Editor:Vitiligo is a chronic disease that impacts many aspects of a patient’s life.The prevalence of vitiligo has been increasing,and currently involves up to 0.5%to 2%of all races worldwide.[1]Although this condition very rarely produces any direct physical discomfort,the cosmetic problems and disfiguring appearance resulting from the depigmented lesions severely affect the quality of life(QoL)in these individuals.展开更多
The future trends for mineral exploration study should depend on the demands from our society and industry,which have clearly changed in the past decade and will continuously evolve in the future.In general,three majo...The future trends for mineral exploration study should depend on the demands from our society and industry,which have clearly changed in the past decade and will continuously evolve in the future.In general,three major challenges on mineral exploration have been raised for all economic geologists,including:(1)deep exploration;(2)intelligent exploration and;(3)green exploration(i.e.,“DIG”exploration).展开更多
基金supported by the Scientific Research Foundation of Weifang University of Science and Technology(Grant Nos.KJRC2022002 and KJRC2023035).
文摘The interaction between three optical solitons is a complex and valuable research direction,which is of practical application for promoting the development of optical communication and all-optical information processing technology.In this paper,we start from the study of the variable-coefficient coupled higher-order nonlinear Schodinger equation(VCHNLSE),and obtain an analytical three-soliton solution of this equation.Based on the obtained solution,the interaction of the three optical solitons is explored when they are incident from different initial velocities and phases.When the higher-order dispersion and nonlinear functions are sinusoidal,hyperbolic secant,and hyperbolic tangent functions,the transmission properties of three optical solitons before and after interactions are discussed.Besides,this paper achieves effective regulation of amplitude and velocity of optical solitons as well as of the local state of interaction process,and interaction-free transmission of the three optical solitons is obtained with a small spacing.The relevant conclusions of the paper are of great significance in promoting the development of high-speed and large-capacity optical communication,optical signal processing,and optical computing.
基金supported by the Scientific Research Foundation of Weifang University of Science and Technology (Grant Nos.KJRC2022002 and KJRC2023035)。
文摘When pursuing femtosecond-scale ultrashort pulse optical communication, one cannot overlook higher-order nonlinear effects. Based on the fundamental theoretical model of the variable coefficient coupled high-order nonlinear Schr¨odinger equation, we analytically explore the evolution of optical solitons in the presence of highorder nonlinear effects. Moreover, the interactions between two nearby optical solitons and their transmission in a nonuniform fiber are investigated. The stability of optical soliton transmission and interactions are found to be destroyed to varying degrees due to higher-order nonlinear effects. The outcomes may offer some theoretical references for achieving ultra-high energy optical solitons in the future.
基金Financial support provided by the National Key Research and Development Program of China (2017YFD0101000)the Agricultural Science and Technology Innovation Program is acknowledged
文摘Common wheat is the major cereal crop that underpins the food safety of China. Both winter wheat and spring wheat are grown on ~24 million ha. This review aims to summarize the current status of wheat production and breeding progress in the northern wheat production areas of the country, and to review recently advanced technologies being applied in wheat breeding, including the use of dwarf-male-sterile(DMS) wheat, speed breeding and specialized wheat breeding SNP chips. Crossing is the initial step in most breeding programs. DMS wheat is a convenient tool for large scale production of hybrid seed. Speed breeding or accelerated generation turnover attempts to reduce the time taken in cultivar development. Several different SNP chips are high-throughput, genome-wide genotyping platforms for breeding and research.
基金financially supported by the National Key Research and Development Program of China(2017YFD0200200,2017YFD0200202)the National Natural Science Foundation of China(31960627)+1 种基金support from the Australia-China Joint Research Centre-Healthy Soils for Sustainable Food Production and Environmental Quality(ACSRF48165)the CSIRO and Chinese Academy of Agricultural Sciences(CAAS)through the research project"Scientific Benchmarks for Sustainable Agricultural Intensification"for financial support。
文摘Maize growth,organ development,and yield formation are highly controlled by the manner in which the plant captures,partition,and remobilizes biomass and phosphorus(P).Better understanding of biomass and P accumulation,partition,and remobilization processes will improve modeling of crop resource use.However,there is still a lack of detailed data to parameterize the modeling of these processes,particula rly for modern maize cultivars.A two-year(2016 and 2017)field experiment with three P fertilization treatments(0(P0),75(P75),and 300(P300)kg P_(2)O_(5)ha^(-1))was conducted on a Fluvo-aquic soil(Quzhou,Hebei province,China)to collect data and quantify key processes for a representative modern maize cultivar(Zhengdan 958)widely grown in China.The proportions of biomass and P partitioned into various maize organs were unaffected by P application rate.Zhengdan 958 showed a much lower leaf-senescence rate than older cultivars,resulting in post-silking leaf photosynthesis being sufficient to meet grain biomass demand.In contrast,50%-85%of leaf P and 15%-50%of stem P accumulated pre-silking were remobilized into grain,in spite of the large proportion of post-silking P uptake.Our results are consistent with the theory that plants use resources according to the priority order of re-allocation from senescence followed by assimilation and uptake,with the re-translocation of reserves last.The results also enabled us to estimate the threshold P concentrations of Zhengdan 958 for modeling crop P demand.The critical leaf P concentration for individual leaves was 0.25%-0.30%,with a corresponding specific leaf P(SLP)of 75-100 mg P m^(-2).The structural P concentration for leaf was 0.01%,corresponding to an SLP of 3.8 mg P m^(-2).The maximum P concentrations of leaves and stems were 0.33%and 0.29%.The residual P concentration for stems was 0.006%.
基金CAMS Medicine and Health Technology Innovation ProjectGrant/Award Number:2021-I2M-1-060 and 2021-RC310-010+1 种基金National Natural Science Foundation of ChinaGrant/Award Number:81972975。
文摘Background:Gastrointestinal(GI)injury is one of the most common side effects of radiotherapy.However,there is no ideal therapy method except for symptomatic treatment in the clinic.Xuebijing(XBJ)is a traditional Chinese medicine,used to treat sepsis by injection.In this study,the protective effects of XBJ on radiation-i nduced intestinal injury(RⅢ)and its mechanism were explored.Methods:The effect of XBJ on survival of irradiated C57BL/6 mice was monitored.Histological changes including the number of crypts and the length of villi were evaluated by H&E.The expression of Lgr5^(+)intestinal stem cells(ISCs),Ki67^(+)cells,villin and lysozymes were examined by immunohistochemistry.The expression of cytokines in the intestinal crypt was detected by RT-PCR.DNA damage and apoptosis rates in the small intestine were also evaluated by immunofluorescence.Results:In the present study,XBJ improved the survival rate of the mice after 8.0and 9.0 Gy total body irradiation(TBI).XBJ attenuated structural damage of the small intestine,maintained regenerative ability and promoted proliferation and differentiation of crypt cells,decreased apoptosis rate and reduced DNA damage in the intestine.Elevation of IL-6 and TNF-α was limited,but IL-1,TNF-β and IL-10 levels were increased in XBJ-treated group after irradiation.The expression of Bax and p53 were decreased after XBJ treatment.Conclusions:Taken together,XBJ provides a protective effect on RⅢby inhibiting inflammation and blocking p53-related apoptosis pathway.
文摘In wireless sensor networks, due to the energy and resource constraints, nodes may be unwilling to forward packets for their neighbors. This can render severe deteriorations in the network performance and malfunctions of the system. To tackle such selfish behaviors and enhance the cooperation among sensors, based on reputation and energy consumption of each node, we present a utility function to punish the malicious nodes and encourage cooperation among nodes. Specifically, we firstly give a mixed strategy Nash equilibrium solution for the two nodes. Then we extend the model to multi-nodes scenario. With the unity function, each sensor’s reputation is evaluated according to its degree of cooperation. The extensive simulation results have shown the effectiveness of the mechanism, in that the cooperative behaviors are encouraged, which can ensure the normal functioning of the network system.
基金supported by the National Key R&D Program of China (2022YFD190010201, 2021YFD1900901)。
文摘Soil salinity is a global threat to the productivity of arable land. With the impact of population growth and development of social economy in China, the area of arable land has been shrinking in recent decades and is approaching a critical threshold of 120 Mha, the minimum area for maintaining the national food security. Saline-alkaline land, as important backup reserve, has been receiving increased attention as an opportunity to expand land resources. This review first summarizes the general principles and technologies of saline soil reclamation to support plant growth, including leaching salts or blocking the rise of salts, and soil fertility enhancement to improve the buffering capacity.Then the progress in this area in China is described including the customization of technologies and practices used in different saline-alkali regions. Following the soil management strategies, the concept of selecting crops for saline soil is proposed. This encompasses halophyte planting, salt-tolerant crop breeding and the application of saline-adapted functional microorganisms to improve the adaptation of crops. Finally, the current problems and challenges are evaluate, and future research directions and prospects proposed for managing this major soil constraint.
基金financially funded by the National Natural Science Foundation of China(Nos.U23A2054 and 42377128)the National Key R&D Program of China(No.2022YFD1901300)。
文摘Soil health is an important component of“One Health”.Soils provide habitat to diverse and abundant organisms.Understanding microbial diversity and functions is essential for building healthy soils towards sustainable agriculture.Arbuscular mycorrhizal fungi(AMF)form potentially symbiotic associations with approximately 80%of land plant species that are well recognized for carbon flux and nutrient cycling.In addition to disentangling the signaling pathways and regulatory mechanisms between the two partners,recent advances in hyphosphere research highlight some emerging roles of AMF and associated microbes in the delivery of soil functions.This paper reviews the contribution of AMF to soil health in agroecosystems,with a major focus on recent progress in the contribution of hyphosphere microbiome to nutrient cycling,carbon sequestration,and soil aggregation.The hyphosphere microbiome and fungal stimulants open avenues for developing new fertilizer formulas to promote AMF benefits.In practice,developing AMF-friendly management strategies will have long-term positive effects on sustainable agriculture aiming at simultaneously providing food security,increasing resource use efficiency,and maintaining environment integrity.
基金supported by a grant from the Clinical Research Project on COVID-19 infection at the Xijing Hospital(No.XJZT23XG29).
文摘Background:Limited information exists regarding the impact of severe acute respiratory syndrome-coronavirus-2(SARS-CoV-2)infection on psoriasis patients.The objective of this study was to identify clinical factors associated with the prognosis of psoriasis following SARS-CoV-2 infection.Methods:A retrospective,multicenter study was conducted between March and May 2023.Univariable and multivariable logistic regression analyses were employed to identify factors associated with coronavirus disease 2019(COVID-19)-related psoriasis outcomes.The study included 2371 psoriasis patients from 12 clinical centers,with 2049 of them having been infected with SARS-CoV-2.Results:Among the infected groups,lower exacerbation rates were observed in individuals treated with biologics compared to those receiving traditional systemic or nonsystemic treatments(22.3%[236/1058]vs.39.8%[92/231]vs.37.5%[140/373],P<0.001).Psoriasis progression with lesions(adjusted odds ratio[OR]=8.197,95%confidence interval[95%CI]=5.685-11.820,compared to no lesions),hypertension(adjusted OR=1.582,95%CI=1.068-2.343),traditional systemic(adjusted OR=1.887,95%CI=1.263-2.818),and nonsystemic treatment(adjusted OR=1.602,95%CI=1.117-2.297)were found to be associated with exacerbation of psoriasis after SARS-CoV-2 infection,but not biologics(adjusted OR=0.931,95%CI=0.680-1.274,compared to no treatment),according to multivariable logistic regression analysis.Conclusions:A reduced risk of psoriasis exacerbation after SARS-CoV-2 infection was observed with biologics compared to traditional systemic and nonsystemic treatments.Significant risk factors for exacerbation after infection were identified as existing psoriatic lesions and hypertension.
文摘Mycorrhizae are the most widespread symbioses in nature,involving plants and specialized soil fungi.In recent years,mycorrhizal research has made remarkable progress.Breakthroughs in genomics and other modern techniques have opened new windows in multiple domains,such as evolution,physiology,and function of mycorrhizal fungi.
基金financially supported by the National Key R&D Program of China (2022YFD1901300, 2023YFD1901500)。
文摘Healthy soils are vital for the diverse services provided by ecosystems to human society~[1], such as provisioning(food,fiber, timber, and fuel), regulation(climate, disease, and natural hazards), waste treatment, nutrient cycling, and cultural services. Soil has a three phase system and the interactions between soil chemical, biological, and physical attributes determine functions(hydraulic, thermal, and gas fluxes).
文摘Food security is among the most fundamental of national interests and productive farmland is essential for secure grain supply.With the increase of agricultural intensification and the impact of global climate change,the soil in the earth is facing various degradation problems such as compaction,acidification,and salinity.
基金supported by a grant from the Tianjin Municipal Health Commission(No.TJW2022QN088).
文摘The crucial role of the epidermal function in the regulation of cutaneous and extracutaneous functions has been well demonstrated over the past decades.Epidermal permeability barrier dysfunction enhances epidermal DNA and lipid synthesis,and cutaneous and systemic inflammation.[1,2]Conversely,improvement in epidermal permeability barrier function inhibits epidermal lipid synthesis,cytokine production,and epidermal proliferation in barrier-disrupted skin.[1,2]Similarly,reduced stratum corneum hydration(SCH)levels can negatively impact epidermal function and increase cytokine levels in the circulation.[3,4]Correspondingly,improvement in epidermal function lowers the circulating levels of proinflammatory cytokines in addition to alleviation and prevention of the relapse of inflammatory skin disorders such as psoriasis.[2,5,6]Interestingly,improvement in epidermal function also mitigates the progression of cognitive impairment in the elderly.[7]Taken together,the evidence indicates the regulatory role of epidermal function in cutaneous and extracutaneous functions.Thus,improvement in epidermal function can benefit the overall human health.
基金the National Natural Science Foundation of China (31872182)the National Key Research and DevelopmentProgram of China (2016YFE0101100)the Swiss National Science Foundation through the 2015-2016 BiodivERsA COFUND call (31BD30-172466 and31003A-166079).
文摘The fast-growing world population exerts great pressure on the land to produce enough nutritious food. It is projectedthat global population will be 50% greater than at present by 2050 and the demand for global grain will havedoubled[1]. The pressure further intensifies with the stresses resulting from climate change, associated extremeweather[2], and expansion of urbanization. Humanity has already transgressed three of the nine interlinked planetaryboundaries, and agriculture is the major driving force behind this development^1. The agricultural system must betransformed to simultaneously provide global food security and environmental integrity[4]. To address thesechallenges, sustainability in agriculture must be enhanced13,51. This is particularly true for rapidly developingcountries such as China. While intensive, industrial agriculture achieved enormous successes, such as feeding 20%of the global population by producing 25% of the world’s grain with less than 10% of world arable land, theseachievements came at the expense of low resource use efficiency and environmental problems such as airpollution161, water pollution171, and soil acidification[8]. Agriculture in China is facing unprecedented challenges.
基金supported by the National Natural Science Foundation of China (31772402, 30925024)the National Key Research and Development Program of China (2016YFE0101100, 2017YFD0200200)the National Basic Research Program (973-2015CB150405)
文摘Phosphorus(P)is a non-renewable resource,therefore ensuring global food and environmental security depends upon sustainable P management.To achieve this goal,sustainable P management in the upstream and downstream sectors of agriculture from mineral extraction to food consumption must be addressed systematically.The innovation and feasibility of P sustainability are highlighted from the perspective of the whole P-based chain,including the mining and processing of P rock,production of P fertilizers,soil and rhizosphere processes involving P,absorption and utilization of P by plants,P in livestock production,as well as flow and management of P at the catchment scale.The paper also emphasizes the importance of recycling P and the current challenges of P recovery.Finally,sustainable solutions of holistic P management are proposed from the perspective of technology improvement with policy support.
基金supported by Capulin(Beijing Sanheli Cosmetics Technology Co.,Ltd.).
文摘To the Editor:Vitiligo is a chronic disease that impacts many aspects of a patient’s life.The prevalence of vitiligo has been increasing,and currently involves up to 0.5%to 2%of all races worldwide.[1]Although this condition very rarely produces any direct physical discomfort,the cosmetic problems and disfiguring appearance resulting from the depigmented lesions severely affect the quality of life(QoL)in these individuals.
文摘The future trends for mineral exploration study should depend on the demands from our society and industry,which have clearly changed in the past decade and will continuously evolve in the future.In general,three major challenges on mineral exploration have been raised for all economic geologists,including:(1)deep exploration;(2)intelligent exploration and;(3)green exploration(i.e.,“DIG”exploration).
