藓结皮是荒漠生物土壤结皮的重要类型,在荒漠生态系统碳固定与碳排放过程中具有重要作用。研究长期氮添加对藓结皮光合生理活性和土壤有机碳(SOC)组分的影响,有助于理解藓结皮光合生理活性特征与荒漠生态系统土壤碳固存之间的关系及其...藓结皮是荒漠生物土壤结皮的重要类型,在荒漠生态系统碳固定与碳排放过程中具有重要作用。研究长期氮添加对藓结皮光合生理活性和土壤有机碳(SOC)组分的影响,有助于理解藓结皮光合生理活性特征与荒漠生态系统土壤碳固存之间的关系及其调控因子。为此,研究依托古尔班通古特沙漠野外长期(13a)氮添加实验,以齿肋赤藓形成的藓结皮为研究对象,选取0(N0)、1.0(N1)、3.0 g N m-2a-1(N3)三种氮处理,阐明长期氮添加对藓结皮光合生理活性和SOC组分的影响。结果表明:(1)相比对照,长期氮添加对结皮层颗粒有机碳(POC)与矿物结合态有机碳(MAOC)含量无显著影响,但显著减少了0—5 cm土层POC和MAOC含量的积累;(2)N1处理显著提高了叶绿素和非结构性碳水化合物(NSC)含量,而N3处理叶绿素a、叶绿素b、总叶绿素及NSC的含量分别显著降低了50.94%、42.49%、46.71%和50.85%;(3)可溶性糖的含量在N1处理下显著增加,N3处理则显著抑制了其积累,脯氨酸的含量随氮浓度呈显著下降的趋势,长期氮添加对可溶性蛋白含量无显著影响;(4)相关性分析表明,长期氮添加、光合生理活性与POC和MAOC含量无显著相关性,酸碱度、微生物量碳氮、电导率、硝态氮和铵态氮皆显著影响POC和MAOC的含量积累。研究揭示了长期氮添加对藓结皮的光合生理活性和SOC组分的影响,且光合生理活性的响应无法有效反映SOC组分变化,为理解荒漠生态系统中氮沉降对生物土壤结皮的影响提供数据支持。展开更多
In the context of changes in global climate and land uses,biodiversity patterns and plant species distributions have been significantly affected.Soil salinization is a growing problem,particularly in the arid areas of...In the context of changes in global climate and land uses,biodiversity patterns and plant species distributions have been significantly affected.Soil salinization is a growing problem,particularly in the arid areas of Northwest China.Halophytes are ideal for restoring soil salinization because of their adaptability to salt stress.In this study,we collected the current and future bioclimatic data released by the WorldClim database,along with soil data from the Harmonized World Soil Database(v1.2)and A Big Earth Data Platform for Three Poles.Using the maximum entropy(MaxEnt)model,the potential suitable habitats of six halophytic plant species(Halostachys caspica(Bieb.)C.A.Mey.,Halogeton glomeratus(Bieb.)C.A.Mey.,Kalidium foliatum(Pall.)Moq.,Halocnemum strobilaceum(Pall.)Bieb.,Salicornia europaea L.,and Suaeda salsa(L.)Pall.)were assessed under the current climate conditions(average for 1970-2000)and future(2050s,2070s,and 2090s)climate scenarios(SSP245 and SSP585,where SSP is the Shared Socio-economic Pathway).The results revealed that all six halophytic plant species exhibited the area under the receiver operating characteristic curve values higher than 0.80 based on the MaxEnt model,indicating the excellent performance of the MaxEnt model.The suitability of the six halophytic plant species significantly varied across regions in the arid areas of Northwest China.Under different future climate change scenarios,the suitable habitat areas for the six halophytic plant species are expected to increase or decrease to varying degrees.As global warming progresses,the suitable habitat areas of K.foliatum,S.salsa,and H.strobilaceum exhibited an increasing trend.In contrast,the suitable habitat areas of H.glomeratus,S.europaea,and H.caspica showed an opposite trend.Furthermore,considering the ongoing global warming trend,the centroids of the suitable habitat areas for various halophytic plant species would migrate to different degrees,and four halophytic plant species,namely,S.salsa,H.strobilaceum,H.glomeratus,and H.capsica,would migrate to higher latitudes.Temperature,precipitation,and soil factors affected the possible distribution ranges of these six halophytic plant species.Among them,precipitation seasonality(coefficient of variation),precipitation of the warmest quarter,mean temperature of the warmest quarter,and exchangeable Na+significantly affected the distribution of halophytic plant species.Our findings are critical to comprehending and predicting the impact of climate change on ecosystems.The findings of this study hold significant theoretical and practical implications for the management of soil salinization and for the utilization,protection,and management of halophytes in the arid areas of Northwest China.展开更多
The drylands of China cover approximately 6.6×106 km2 and are home to approximately 5.8×10^(8)people,providing important ecosystem services for human survival and development.However,dryland ecosystems are e...The drylands of China cover approximately 6.6×106 km2 and are home to approximately 5.8×10^(8)people,providing important ecosystem services for human survival and development.However,dryland ecosystems are extremely fragile and sensitive to external environmental changes.Land use and land cover(LULC)changes significantly impact soil structure and function,thus affecting the soil multifunctionality(SMF).However,the effect of LULC changes on the SMF in the drylands of China has rarely been reported.In this study,we investigated the characteristics of the SMF changes based on soil data in the 1980s from the National Tibetan Plateau Data Center.We explored the drivers of the SMF changes under different LULC types(including forest,grassland,shrubland,and desert)and used structural equation modeling to explore the main driver of the SMF changes.The results showed that the SMF under the four LULC types decreased in the following descending order:forest,grassland,shrubland,and desert.The main driver of the SMF changes under different LULC types was mean annual temperature(MAT).In addition to MAT,pH in forest,soil moisture(SM)and soil biodiversity index in grassland,SM in shrubland,and aridity index in desert are crucial factors for the SMF changes.Therefore,the SMF in the drylands of China is regulated mainly by MAT and pH,and comprehensive assessments of the SMF in drylands need to be performed regarding LULC changes.The results are beneficial for evaluating the SMF among different LULC types and predicting the SMF under global climate change.展开更多
文摘藓结皮是荒漠生物土壤结皮的重要类型,在荒漠生态系统碳固定与碳排放过程中具有重要作用。研究长期氮添加对藓结皮光合生理活性和土壤有机碳(SOC)组分的影响,有助于理解藓结皮光合生理活性特征与荒漠生态系统土壤碳固存之间的关系及其调控因子。为此,研究依托古尔班通古特沙漠野外长期(13a)氮添加实验,以齿肋赤藓形成的藓结皮为研究对象,选取0(N0)、1.0(N1)、3.0 g N m-2a-1(N3)三种氮处理,阐明长期氮添加对藓结皮光合生理活性和SOC组分的影响。结果表明:(1)相比对照,长期氮添加对结皮层颗粒有机碳(POC)与矿物结合态有机碳(MAOC)含量无显著影响,但显著减少了0—5 cm土层POC和MAOC含量的积累;(2)N1处理显著提高了叶绿素和非结构性碳水化合物(NSC)含量,而N3处理叶绿素a、叶绿素b、总叶绿素及NSC的含量分别显著降低了50.94%、42.49%、46.71%和50.85%;(3)可溶性糖的含量在N1处理下显著增加,N3处理则显著抑制了其积累,脯氨酸的含量随氮浓度呈显著下降的趋势,长期氮添加对可溶性蛋白含量无显著影响;(4)相关性分析表明,长期氮添加、光合生理活性与POC和MAOC含量无显著相关性,酸碱度、微生物量碳氮、电导率、硝态氮和铵态氮皆显著影响POC和MAOC的含量积累。研究揭示了长期氮添加对藓结皮的光合生理活性和SOC组分的影响,且光合生理活性的响应无法有效反映SOC组分变化,为理解荒漠生态系统中氮沉降对生物土壤结皮的影响提供数据支持。
基金supported by the Third Xinjiang Scientific Expedition Program (2022xjkk1205)the Tianshan Talent Training Program (2023TSYCTD0084)+2 种基金the Science and Technology Major Program of Xinjiang Uygur Autonomous Region (2023A01002)the Young Top Talents of Xinjiang Normal University (XJNUQB2022-29)the Youth Innovation Promotion Association of the Chinese Academy of Sciences (2020437)
文摘In the context of changes in global climate and land uses,biodiversity patterns and plant species distributions have been significantly affected.Soil salinization is a growing problem,particularly in the arid areas of Northwest China.Halophytes are ideal for restoring soil salinization because of their adaptability to salt stress.In this study,we collected the current and future bioclimatic data released by the WorldClim database,along with soil data from the Harmonized World Soil Database(v1.2)and A Big Earth Data Platform for Three Poles.Using the maximum entropy(MaxEnt)model,the potential suitable habitats of six halophytic plant species(Halostachys caspica(Bieb.)C.A.Mey.,Halogeton glomeratus(Bieb.)C.A.Mey.,Kalidium foliatum(Pall.)Moq.,Halocnemum strobilaceum(Pall.)Bieb.,Salicornia europaea L.,and Suaeda salsa(L.)Pall.)were assessed under the current climate conditions(average for 1970-2000)and future(2050s,2070s,and 2090s)climate scenarios(SSP245 and SSP585,where SSP is the Shared Socio-economic Pathway).The results revealed that all six halophytic plant species exhibited the area under the receiver operating characteristic curve values higher than 0.80 based on the MaxEnt model,indicating the excellent performance of the MaxEnt model.The suitability of the six halophytic plant species significantly varied across regions in the arid areas of Northwest China.Under different future climate change scenarios,the suitable habitat areas for the six halophytic plant species are expected to increase or decrease to varying degrees.As global warming progresses,the suitable habitat areas of K.foliatum,S.salsa,and H.strobilaceum exhibited an increasing trend.In contrast,the suitable habitat areas of H.glomeratus,S.europaea,and H.caspica showed an opposite trend.Furthermore,considering the ongoing global warming trend,the centroids of the suitable habitat areas for various halophytic plant species would migrate to different degrees,and four halophytic plant species,namely,S.salsa,H.strobilaceum,H.glomeratus,and H.capsica,would migrate to higher latitudes.Temperature,precipitation,and soil factors affected the possible distribution ranges of these six halophytic plant species.Among them,precipitation seasonality(coefficient of variation),precipitation of the warmest quarter,mean temperature of the warmest quarter,and exchangeable Na+significantly affected the distribution of halophytic plant species.Our findings are critical to comprehending and predicting the impact of climate change on ecosystems.The findings of this study hold significant theoretical and practical implications for the management of soil salinization and for the utilization,protection,and management of halophytes in the arid areas of Northwest China.
基金supported by the Tianshan Talent Training Plan of Xinjiang,China(2022TSYCLJ0058,2022TSYCCX0001)the National Natural Science Foundation of China(2022D01D83,42377358).
文摘The drylands of China cover approximately 6.6×106 km2 and are home to approximately 5.8×10^(8)people,providing important ecosystem services for human survival and development.However,dryland ecosystems are extremely fragile and sensitive to external environmental changes.Land use and land cover(LULC)changes significantly impact soil structure and function,thus affecting the soil multifunctionality(SMF).However,the effect of LULC changes on the SMF in the drylands of China has rarely been reported.In this study,we investigated the characteristics of the SMF changes based on soil data in the 1980s from the National Tibetan Plateau Data Center.We explored the drivers of the SMF changes under different LULC types(including forest,grassland,shrubland,and desert)and used structural equation modeling to explore the main driver of the SMF changes.The results showed that the SMF under the four LULC types decreased in the following descending order:forest,grassland,shrubland,and desert.The main driver of the SMF changes under different LULC types was mean annual temperature(MAT).In addition to MAT,pH in forest,soil moisture(SM)and soil biodiversity index in grassland,SM in shrubland,and aridity index in desert are crucial factors for the SMF changes.Therefore,the SMF in the drylands of China is regulated mainly by MAT and pH,and comprehensive assessments of the SMF in drylands need to be performed regarding LULC changes.The results are beneficial for evaluating the SMF among different LULC types and predicting the SMF under global climate change.