{"title":"草地土壤对燃烧的生物和化学反应。","authors":"L. Picone, G. Quaglia, F. García, P. Laterra","doi":"10.2458/AZU_JRM_V56I3_PICONE","DOIUrl":null,"url":null,"abstract":"Changes in soil nutrient pools and microbial activity due to fire are important for understanding the availability of nutrients to plants. The objective of this study was to evaluate the effect of fire: 1) on size and seasonal dynamics of labile pools of C and N in a short-term after burning; and II) on chemical properties and microbial diversity immediately after fire, in a grassland with Paspalum quadrifarium Lam. Microbial biomass C and N tended to be higher in the burned (433 mg C kg-1 and 37 mg N kg-1) than in the unburned treatment (386 mg C kg-1 and 26 mg N kg-1). Both microbial biomass, decreased at the beginning of the growing season and then recovered at the end of the season. Levels of mineralizable C and N were similar in both treatments; however they showed different patterns of seasonal transformations. At initiation of plant growth, concentration of mineralizable C decreased while amount of mineralizable N increased; but the opposite occurred at the end of the growing season. Increases in microbial biomass coincided with low levels of mineralizable N and high concentrations of mineralizable C, suggesting a higher immobilization at the end of the season. Immediately after burning, organic C and N decreased by 11 and 7%, respectively. Mineral N was almost double, available P increased by 10 mg kg-1; but exchangeable bases, bacterial and actinomycetes population, and urease activity were not affected by burning. Fire can induce immediate changes to the soil; however, long-term studies will be required to evaluate the duration of the effect of fire on soil biological processes and nutrient transformations. DOI:10.2458/azu_jrm_v56i3_picone","PeriodicalId":16918,"journal":{"name":"Journal of Range Management","volume":"16 1","pages":"291-297"},"PeriodicalIF":0.0000,"publicationDate":"2003-05-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"27","resultStr":"{\"title\":\"Biological and chemical response of a grassland soil to burning.\",\"authors\":\"L. Picone, G. Quaglia, F. García, P. Laterra\",\"doi\":\"10.2458/AZU_JRM_V56I3_PICONE\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Changes in soil nutrient pools and microbial activity due to fire are important for understanding the availability of nutrients to plants. The objective of this study was to evaluate the effect of fire: 1) on size and seasonal dynamics of labile pools of C and N in a short-term after burning; and II) on chemical properties and microbial diversity immediately after fire, in a grassland with Paspalum quadrifarium Lam. Microbial biomass C and N tended to be higher in the burned (433 mg C kg-1 and 37 mg N kg-1) than in the unburned treatment (386 mg C kg-1 and 26 mg N kg-1). Both microbial biomass, decreased at the beginning of the growing season and then recovered at the end of the season. Levels of mineralizable C and N were similar in both treatments; however they showed different patterns of seasonal transformations. At initiation of plant growth, concentration of mineralizable C decreased while amount of mineralizable N increased; but the opposite occurred at the end of the growing season. Increases in microbial biomass coincided with low levels of mineralizable N and high concentrations of mineralizable C, suggesting a higher immobilization at the end of the season. Immediately after burning, organic C and N decreased by 11 and 7%, respectively. Mineral N was almost double, available P increased by 10 mg kg-1; but exchangeable bases, bacterial and actinomycetes population, and urease activity were not affected by burning. Fire can induce immediate changes to the soil; however, long-term studies will be required to evaluate the duration of the effect of fire on soil biological processes and nutrient transformations. 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引用次数: 27
摘要
火灾引起的土壤养分库和微生物活动的变化对了解植物的养分有效性具有重要意义。本研究的目的是评价火灾对燃烧后短期内碳、氮不稳定库的大小和季节动态的影响;(2)火后草地的化学性质和微生物多样性。燃烧处理的微生物生物量C和N (433 mg C kg-1和37 mg N kg-1)往往高于未燃烧处理(386 mg C kg-1和26 mg N kg-1)。两种微生物的生物量均在生长季开始时下降,在生长季结束时恢复。两种处理的可矿化C和N水平相似;然而,它们表现出不同的季节变化模式。在植物生长初期,可矿化碳浓度降低,可矿化氮量增加;但在生长季节结束时,情况正好相反。微生物生物量的增加与可矿化氮的低水平和可矿化碳的高浓度相一致,表明在季节结束时固定化程度较高。燃烧后,有机碳和氮分别下降11%和7%。矿质氮几乎翻倍,速效磷增加10 mg kg-1;但交换碱基、细菌和放线菌数量以及脲酶活性不受燃烧的影响。火能立即引起土壤的变化;但是,还需要进行长期研究,以评估火对土壤生物过程和养分转化影响的持续时间。DOI: 10.2458 / azu_jrm_v56i3_picone
Biological and chemical response of a grassland soil to burning.
Changes in soil nutrient pools and microbial activity due to fire are important for understanding the availability of nutrients to plants. The objective of this study was to evaluate the effect of fire: 1) on size and seasonal dynamics of labile pools of C and N in a short-term after burning; and II) on chemical properties and microbial diversity immediately after fire, in a grassland with Paspalum quadrifarium Lam. Microbial biomass C and N tended to be higher in the burned (433 mg C kg-1 and 37 mg N kg-1) than in the unburned treatment (386 mg C kg-1 and 26 mg N kg-1). Both microbial biomass, decreased at the beginning of the growing season and then recovered at the end of the season. Levels of mineralizable C and N were similar in both treatments; however they showed different patterns of seasonal transformations. At initiation of plant growth, concentration of mineralizable C decreased while amount of mineralizable N increased; but the opposite occurred at the end of the growing season. Increases in microbial biomass coincided with low levels of mineralizable N and high concentrations of mineralizable C, suggesting a higher immobilization at the end of the season. Immediately after burning, organic C and N decreased by 11 and 7%, respectively. Mineral N was almost double, available P increased by 10 mg kg-1; but exchangeable bases, bacterial and actinomycetes population, and urease activity were not affected by burning. Fire can induce immediate changes to the soil; however, long-term studies will be required to evaluate the duration of the effect of fire on soil biological processes and nutrient transformations. DOI:10.2458/azu_jrm_v56i3_picone