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太岳山油松人工林生长季土壤呼吸监测频率

DOI: 10.3724/SP.J.1145.2014.00268, PP. 268-274

Keywords: 土壤呼吸速率,监测频率,q10值,拟合效果,油松人工林

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Abstract:

土壤呼吸有着明显的时间变异,呈现小时、日、季节、年际的变化,对土壤呼吸制定最佳的监测频率非常必要.为选取土壤呼吸的最佳监测频率,以太岳山油松人工林为研究对象,于2011-2012年5-10月测定土壤呼吸速率的动态变化,以每周2次(天)的观测数据作为长期定位观测土壤呼吸速率的数据(ck),依此区划为不同监测频率:每周1次(sf2)、每两周1次(sf4)、每月1次(sf8),并分析不同监测频率的土壤呼吸速率与对照相比产生的偏差以及对生长季土壤呼吸速率值的估计概率.结果显示:油松人工林土壤呼吸速率季节变化明显,9:00-11:00土壤呼吸值与24h日平均土壤呼吸值相关性最大(r2=0.978).降低监测频率使土壤呼吸速率与土壤温湿度的拟合效果(r2)以及土壤呼吸速率对温度的敏感性指数q10的波动范围呈扩大趋势.随着监测频率的降低,所测的土壤呼吸速率与对照的离散程度呈增大趋势.在给定精度下,随着监测频率的降低,所测的土壤呼吸速率对生长季土壤呼吸速率值估计概率呈下降趋势,2011、2012、2011-2012年sf2在5%精度下估计概率均为100%,而sf4在5%的精度下估计概率分别为50%、75%、100%,sf8则在5%的精度下估计概率依次为50%、62.5%、87.5%.研究表明,整个生长季可使用9:00-10:00作为土壤呼吸速率测定代表性时段;对于单年观测期每周1次(天)的监测频率可以得到可靠的生长季土壤呼吸估算量(与对照相比偏差<5%),而对于两年观测期每两周1次(天)的监测频率可以得到可靠的生长季土壤呼吸估算量(与对照相比偏差<5%).本研究结果为准确测定土壤呼吸并减少工作量提供了方法和依据.

 References

[1]  1davidson,ea,janssensia,luoy.onthevariabilityofrespirationinterrestrialecosystems:movingbeyondq10[j].globalchangebiol,2006,12(2):154-164
[2]  2valentinir,matteuccig,dolmanaj,schulzeed,rebmannc,moorsej,graniera,grossp,jensenno.respirationasthemaindeterminantofcarbonbalanceineuropeanforests[j].nature,2000,404(6780):861-865
[3]  5vargasr,allenmf.environmentalcontrolsandtheinfluenceofvegetationtype,finerootsandrhizomorphsondielandseasonalvariationinsoilrespiration[j].newphytol,2008,179(2):460-471
[4]  6luoy,zhoux.soilrespirationandtheenvironment[m].amsterdam:academicpress/elsevier,2006
[5]  8kuzyakovy,gavrichkovao.review:timelagbetweenphotosynthesisandcarbondioxideeffluxfromsoil:areviewofmechanismsandcontrols[j].globalchangebiol,2010,16(12):3386-3406
[6]  10wangyd,liqk,wanghm,wenxf,yangft,mazp,liuyf,sunxm,yugr.precipitationfrequencycontrolsinterannualvariationofsoilrespirationbyaffectingsoilmoistureinasubtropicalforestplantation[j].canjforestres,2011,41(9):1897-1906
[7]  12irvinej,lawbe,martinjg,vickersd.interannualvariationinsoilco2ef?uxandtheresponseofrootrespirationtoclimateandcanopygasexchangeinmatureponderosapine[j].globalchangebiol,2008,14(12):2848-2859
[8]  15savagek,davidsonea,richardsonad.aconceptualandpracticalapproachtodataqualityandanalysisproceduresforhigh-frequencysoilrespirationmeasurements[j].functecol,2008,22(6):1000-1007
[9]  16savagek,davidsonea.acomparisonofmanualandautomatedsystemsforsoilco2fluxmeasurements:trade-offsbetweenspatialandtemporalresolution[j].jexpbot,2003,54(384):891-899
[10]  25唐正,尹华军,周晓波,卫云燕,刘庆.夜间增温和施肥对亚高山针叶林土壤呼吸的短期影响[j].应用与环境生物学报,2012,18(5):713-721[tangz,yinhj,zhouxb,weiyy,liuq.short-termeffectsofnightwarmingandnitrogenadditiononsoilrespirationofsubalpineconiferous,westernsichuan,china[j].chinjapplenvironbiol,2012,18(5):713-
[11]  26姚玉刚,张一平,于贵瑞,沙丽清,邓云,谭正洪.热带雨林土壤呼吸测定代表性时段研究[j].南京林业大学学报(自然科学版),2011,35(4):74-78[yaoyg,zhangyp,yugr,shalq,dengy,tanzh.representativetimeselectionanalysisondailyaveragevalueofsoilrespirationinatropicalrainforest[j].jnanjingforestuniv(natsci),2011,35(4):74-
[12]  27bijracharyahm,lalr,kimblejm.diurnalandseasonalco2�cfluxfromsoilasrelatedtoerosionphasesincentralohio[j].soilscisocamj,2000,64(1):286-293
[13]  32杨阔,王传宽,焦振.东北东部5种温带森林的春季土壤呼吸[j].生态学报,2010,30(12):3155-3162[yangk,wangck,jiaoz.vernalsoilrespirationoffivetemperateforestsinnortheasternchina[j].actaecolsin,2010,30(12):3155-
[14]  33shipl,zhangxz,zhongzm,ouyangh.diurnalandseasonalvariabilityofsoilco2effluxinacroplandecosystemonthetibetanplateau[j].agricformeteorol,2006,137(3):220-233
[15]  34杨庆朋,徐明,刘洪升,王劲松,刘丽香,迟永刚,郑云普.土壤呼吸温度敏感性的影响因素和不确定性[j].生态学报,2011,31(8):2301-2311[yangqp,xum,liuhs,wangjs,liulx,chiyg,zhengyp.impactfactorsanduncertaintiesofthetemperaturesensitivityofsoilrespiration[j].actaecolsin,2011,31(8):2301-
[16]  35liuq,edwardsn,postw,gul,ledfordj,lenharts.temperature-independentdielvariationinsoilrespirationobservedfromatemperatedeciduousforest[j].globalchangebiol,2006,12(11):2136-2145
[17]  36carbonem,vargasr.automatedsoilrespirationmeasurements:newchallenges,informationandopportunities[j].newphytol,2008,177:295-297
[18]  37zhengzm,yugr,sunxm,lisg,wangys,wangyh,fuyl,wangqf.spatio-temporalvariabilityofsoilrespirationofforestecosystemsinchina:in?uencingfactorsandevaluationmodel[j].environmanage,2010,46(4):633-642
[19]  38franzluebbersk,franzluebbersaj,jawsonmd.environmentalcontrolsonsoilandwhole-ecosystemrespirationfromatallgrassprairie[j].soilscisocamj,2002,66(1):254-262
[20]  3knohla,wernerra,brandwa,buchmannn.short-termvariationsin13cofecosystemrespirationrevealslinkbetweenassimilationandrespirationinadeciduousforest[j].oecologia,2005,142(1):70-82
[21]  4missonl,gershensona,tangj,mckaym,chengwx,goldsteina.in?uencesofcanopyphotosynthesisandsummerrainpulsesonrootdynamicsandsoilrespirationinayoungponderosapineforest[j].treephysiol,2006,26(7):833-844
[22]  7savagek,davidsonea,richardsonad,hollingerdy.threescalesoftemporalresolutionfromautomatedsoilrespirationmeasurements[j].agricformeteorol,2009,149(11):2012-2021
[23]  9wangyd,wangzl,wanghm,guocc,baowk.rainfallpulseprimarilydriveslitterfallrespirationanditscontributiontosoilrespirationinayoungexoticpineplantationinsubtropicalchina[j].canjforestres,2012,42(4):657-666
[24]  11ryanmg,lawbe.interpreting,measuring,andmodelingsoilrespiration[j].biogeochemistry,2005,73(1):3-27
[25]  13严俊霞,秦作栋,李洪建,张义辉.黄土高原地区柠条人工林土壤呼吸[j].林业科学,2010,46(3):1-8[yanjx,qinzd,lihj,zhangyh.soilrespirationcharactersinacaraganaplantationinloessplateauregion[j].scisilvsin,2010,46(3):1-
[26]  14ruehrnk,knohla,buchmannn.environmentalvariablescontrollingsoilrespirationondiurnal,seasonalandannualtime-scalesinamixedmountainforestinswitzerland[j].biogeochemistry,2010,98(1-3):153-170
[27]  17edwardsnt,riggsjs.automatedmonitoringofsoilrespiration[j].soilscisocamj,2003,67(4):1266-1271
[28]  18flessah,ruserr,schillingr,loft?eldn,munchjc,kaiserea,beesef.n2oandch4?uxesinpotatofields:automatedmeasurement,managementeffectsandtemporalvariation[j].geoderma,2002,105(3):307-325
[29]  19davidsonea,belke,boonerd.soilwatercontentandtemperatureasindependentorconfoundedfactorscontrollingsoilrespirationinatemperatemixedhardwoodforest[j].globalchangebiol,1998,4(2):217-227
[30]  20shixh,zhangxp,yangxm,mclaughlinnb,liangaz,fanrq.anappropriatetime-windowformeasuringsoilco2efflux:acasestudyonablacksoilinnorth-eastchina[j].actaagricscandb-sp,2012,62(5):449-454
[31]  21陈云明,梁一民,程积民.黄土高原林草植被建设地带性特征[j].植物生态学报,2002,26(3):339-345[chenym,liangym,chenjm.thezonalcharacterofvegetationconstructiononloessplateau[j].jplantecol,2002,26(3):339-
[32]  22tulh,hutx,zhangj,lirh,daihz,luosh.short-termsimulatednitrogendepositionincreasescarbonsequestrationinapleioblastusamarusplantation[j].plantsoil,2011,340(1-2):383-396
[33]  23flanaganlb,sharpej,lettsmg.responseofplantbiomassandsoilrespirationtoexperimentalwarmingandprecipitationmanipulationinanortherngreatplainsgrassland[j].agricformeteorol,2013,173:40-52
[34]  24pangxy,baowk,zhub,chengwx.responsesofsoilrespirationanditstemperaturesensitivitytothinninginapineplantation[j].agricformeteorol,2013,171:57-64
[35]  28王迎红.陆地生态系统温室气体排放观测方法研究应用及结果比对分析[d].北京:中国科学院,2005[wangyh.typicalterrestrialecosystemsofchina:methodresearch,applicationandresultsdiscussion[d].beijing:chineseacademyofsciences,
[36]  29胡正华,李涵茂,杨燕萍,陈书涛,李岑子,申双和.模拟氮沉降对北亚热带落叶阔叶林土壤呼吸的影响[j].环境科学,2010,31(8):1726-1727[huzh,lihm,yangyp,chenst,licz,shensh.effectsofsimulatednitrogendepositiononsoilrespirationinnorthernsubtropicaldeciduousbroad-leavedforest[j].environsci,2010,31(8):1726-
[37]  30wangyd,wanghm,wangzl,zhangwj,guocc,wenxf,liuyf.optimizingmanualsamplingscheduleforestimatingannualsoilco2ef?uxinayoungexoticpineplantationinsubtropicalchina[j].eurjsoilbiol,2012,52:41-47
[38]  31宋学贵,胡庭兴,鲜骏仁,肖春莲,刘文婷.川西南常绿阔叶林土壤呼吸及其对氮沉降的响应[j].水土保持学报,2007,21(4):168-172[songxg,hutx,xianjr,xiaocl,liuwt.soilrespirationanditsresponsetosimulatednitrogendepositioninevergreenbroad-leavedforest,southwestsichuan[j].jsoilwaterconvers,2007,21(4):168-
[39]  39parkintb,kaspartc.temporalvariabilityofsoilcarbondioxideflux[j].soilscisocamj,2004,68(4):1234-1241

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