干旱地区农业研究
榦旱地區農業研究
간한지구농업연구
AGRICULTURAL RESEARCH IN THE ARID AREAS
2015年
3期
196-204
,共9页
孙成胜%张仁陟%张军%蔡立群%周欢%董博
孫成勝%張仁陟%張軍%蔡立群%週歡%董博
손성성%장인척%장군%채립군%주환%동박
N2 O%CH4%春小麦%豌豆%耕作措施%丰雨年%旱作农业
N2 O%CH4%春小麥%豌豆%耕作措施%豐雨年%旱作農業
N2 O%CH4%춘소맥%완두%경작조시%봉우년%한작농업
N2O%CH4%spring wheat%pea%cultivation practices%wet year%dryland agriculture
采用静态箱-气相色谱法采集丰雨年旱作农业区不同耕作措施春小麦-豌豆地排放气体并计算通量,研究耕作措施、土壤温度和土壤含水量对春小麦-豌豆地N2 O和CH4排放的影响,其中,耕作措施包括免耕秸秆覆盖(NTS)、免耕不覆盖(NT)和传统耕作+秸秆还田(TS)以及传统耕作不覆盖(T)四种。研究结果表明:不同措施麦豆地均为N2O的排放源,春小麦地通量波动范围0.018~0.146 mg·m-2·h-1,豌豆地通量波动范围0.024~0.210 mg·m-2·h-1,全生育期春小麦地N2O平均排放通量大小顺序:T>TS>NT>NTS ,而豌豆地大小顺序:T>NTS>NT>TS;不同耕作措施麦豆地均表现为CH4的吸收汇,春小麦地吸收通量的波动范围0.051~0.212 mg·m-2·h-1,豌豆地的波动范围0.057~0.193 mg·m-2·h-1,全生育期春小麦地CH4平均吸收通量大小顺序:NTS>NT>TS>T ,豌豆地大小顺序:NTS>TS>NT>T;不同耕作措施对N2 O和CH4全生育期通量有明显的影响,TS、NT和NTS三种耕作措施较T措施而言,有效地减少了N2 O的排放且增加CH4的吸收;丰雨年,土壤温度和土壤含水量对旱作农业区N2 O和CH4排放综合影响权重有所降低。
採用靜態箱-氣相色譜法採集豐雨年旱作農業區不同耕作措施春小麥-豌豆地排放氣體併計算通量,研究耕作措施、土壤溫度和土壤含水量對春小麥-豌豆地N2 O和CH4排放的影響,其中,耕作措施包括免耕秸稈覆蓋(NTS)、免耕不覆蓋(NT)和傳統耕作+秸稈還田(TS)以及傳統耕作不覆蓋(T)四種。研究結果錶明:不同措施麥豆地均為N2O的排放源,春小麥地通量波動範圍0.018~0.146 mg·m-2·h-1,豌豆地通量波動範圍0.024~0.210 mg·m-2·h-1,全生育期春小麥地N2O平均排放通量大小順序:T>TS>NT>NTS ,而豌豆地大小順序:T>NTS>NT>TS;不同耕作措施麥豆地均錶現為CH4的吸收彙,春小麥地吸收通量的波動範圍0.051~0.212 mg·m-2·h-1,豌豆地的波動範圍0.057~0.193 mg·m-2·h-1,全生育期春小麥地CH4平均吸收通量大小順序:NTS>NT>TS>T ,豌豆地大小順序:NTS>TS>NT>T;不同耕作措施對N2 O和CH4全生育期通量有明顯的影響,TS、NT和NTS三種耕作措施較T措施而言,有效地減少瞭N2 O的排放且增加CH4的吸收;豐雨年,土壤溫度和土壤含水量對旱作農業區N2 O和CH4排放綜閤影響權重有所降低。
채용정태상-기상색보법채집봉우년한작농업구불동경작조시춘소맥-완두지배방기체병계산통량,연구경작조시、토양온도화토양함수량대춘소맥-완두지N2 O화CH4배방적영향,기중,경작조시포괄면경갈간복개(NTS)、면경불복개(NT)화전통경작+갈간환전(TS)이급전통경작불복개(T)사충。연구결과표명:불동조시맥두지균위N2O적배방원,춘소맥지통량파동범위0.018~0.146 mg·m-2·h-1,완두지통량파동범위0.024~0.210 mg·m-2·h-1,전생육기춘소맥지N2O평균배방통량대소순서:T>TS>NT>NTS ,이완두지대소순서:T>NTS>NT>TS;불동경작조시맥두지균표현위CH4적흡수회,춘소맥지흡수통량적파동범위0.051~0.212 mg·m-2·h-1,완두지적파동범위0.057~0.193 mg·m-2·h-1,전생육기춘소맥지CH4평균흡수통량대소순서:NTS>NT>TS>T ,완두지대소순서:NTS>TS>NT>T;불동경작조시대N2 O화CH4전생육기통량유명현적영향,TS、NT화NTS삼충경작조시교T조시이언,유효지감소료N2 O적배방차증가CH4적흡수;봉우년,토양온도화토양함수량대한작농업구N2 O화CH4배방종합영향권중유소강저。
This study aims to illustrate the effect of tillage patters ,soil temperature and soil moisture content on N2O and CH4 emissions of spring wheat-pea rotation fields in a wet year .Gases (N2O and CH4 ) emission were deter-mined under four tillage patterns including no-tillage with straw mulching (NTS ) , no-tillage without straw mulching (NT ) ,conventional tillage with straw mulching (TS ) and conventional tillage without straw mulching (T ) by static cham-ber-gas chromatographic techniques .The results showed that both wheat and pea fields were emission sources of N 2 O re-gardless of the patters .Emission flux of spring wheat field ranged from 0 .018 mg·m-2·h-1 to 0 .146 mg·m-2·h-1 , while that from pea field was from 0 .024 mg·m-2·h-1 to 0 .210 mg·m-2·h-1 .N2O average emission flux of spring wheat field was in the order of T>NT>NTS>TS ,while that from pea field T>NTS>NT>TS .Both wheat and pea fields were sinks of CH4 irrespective of tillage patters .The absorbed flux of spring wheat and pea field were from 0 .051 mg·m-2·h-1 to 0 .212 mg·m-2·h-1 and 0 .057 mg·m-2·h-1 to 0 .193 mg·m-2·h-1 ,respectively .Average CH4 ab-sorption fluxes of spring wheat and pea field was in the order of NTS >NT>TS>T and NTS>TS>NT>T ,respective-ly .Significant effects on fluxes of N2O and CH4 existed across the tillage patterns .Compared with T ,TS ,NT and NTS reduced emissions of N2 O effectively and increased the absorption of CH4 .The comprehensive influence of soil tempera-ture and soil moisture content on N2O and CH4 emission in dryland farming in a wet year was lower than that in a normal year .
