生物学杂志
生物學雜誌
생물학잡지
JOURNAL OF BIOLOGY
2015年
3期
51-57
,共7页
买尔哈巴·力提甫%韦梦%裘琼芬
買爾哈巴·力提甫%韋夢%裘瓊芬
매이합파·력제보%위몽%구경분
甲烷%水稻土%温度
甲烷%水稻土%溫度
갑완%수도토%온도
methane%rice paddy soil%temperature
水稻土甲烷的产生受环境因子的影响。为了比较不同温度下不同pH值水稻土甲烷产生的差异,同时分析不同温度下产甲烷随时间的变化与理化因子变化的相关性,以酸性砂质水稻土(pH值4.67)和偏碱性粘质水稻土(pH值7.88)为研究对象,在15℃、25℃、37℃以及50℃4个温度下进行为期100 d的厌氧培养,定期测定培养过程中产甲烷累积量以及土壤理化因子pH值、氨氮以及有机碳的变化。结果表明,在15℃~37℃范围内初始有机碳含量以及氨氮浓度高的酸性砂质水稻土产甲烷大于偏碱性粘质水稻土;2种土壤产甲烷量以及产甲烷速率均随温度升高而增大,均在37℃时达到最大值;然而在50℃高温下,酸性砂质水稻土甲烷产量明显小于碱性粘质水稻土,且其产甲烷量以及产甲烷速率明显下降,甚至低于25℃,而碱性粘质土壤产甲烷量依然高于37℃,产甲烷速率与37℃相比没有明显下降,说明高温对酸性砂质水稻土的影响大于碱性粘质水稻土。在厌氧培养过程中,不同温度下氨氮浓度与产甲烷始终保持比较高的相关性,而有机碳含量的变化与产甲烷的相关性随温度升高而下降,说明高温下影响土壤产甲烷的因素较低温复杂得多。与碱性土壤相比,不同温度下酸性土壤pH值的变化对产甲烷的影响较大。
水稻土甲烷的產生受環境因子的影響。為瞭比較不同溫度下不同pH值水稻土甲烷產生的差異,同時分析不同溫度下產甲烷隨時間的變化與理化因子變化的相關性,以痠性砂質水稻土(pH值4.67)和偏堿性粘質水稻土(pH值7.88)為研究對象,在15℃、25℃、37℃以及50℃4箇溫度下進行為期100 d的厭氧培養,定期測定培養過程中產甲烷纍積量以及土壤理化因子pH值、氨氮以及有機碳的變化。結果錶明,在15℃~37℃範圍內初始有機碳含量以及氨氮濃度高的痠性砂質水稻土產甲烷大于偏堿性粘質水稻土;2種土壤產甲烷量以及產甲烷速率均隨溫度升高而增大,均在37℃時達到最大值;然而在50℃高溫下,痠性砂質水稻土甲烷產量明顯小于堿性粘質水稻土,且其產甲烷量以及產甲烷速率明顯下降,甚至低于25℃,而堿性粘質土壤產甲烷量依然高于37℃,產甲烷速率與37℃相比沒有明顯下降,說明高溫對痠性砂質水稻土的影響大于堿性粘質水稻土。在厭氧培養過程中,不同溫度下氨氮濃度與產甲烷始終保持比較高的相關性,而有機碳含量的變化與產甲烷的相關性隨溫度升高而下降,說明高溫下影響土壤產甲烷的因素較低溫複雜得多。與堿性土壤相比,不同溫度下痠性土壤pH值的變化對產甲烷的影響較大。
수도토갑완적산생수배경인자적영향。위료비교불동온도하불동pH치수도토갑완산생적차이,동시분석불동온도하산갑완수시간적변화여이화인자변화적상관성,이산성사질수도토(pH치4.67)화편감성점질수도토(pH치7.88)위연구대상,재15℃、25℃、37℃이급50℃4개온도하진행위기100 d적염양배양,정기측정배양과정중산갑완루적량이급토양이화인자pH치、안담이급유궤탄적변화。결과표명,재15℃~37℃범위내초시유궤탄함량이급안담농도고적산성사질수도토산갑완대우편감성점질수도토;2충토양산갑완량이급산갑완속솔균수온도승고이증대,균재37℃시체도최대치;연이재50℃고온하,산성사질수도토갑완산량명현소우감성점질수도토,차기산갑완량이급산갑완속솔명현하강,심지저우25℃,이감성점질토양산갑완량의연고우37℃,산갑완속솔여37℃상비몰유명현하강,설명고온대산성사질수도토적영향대우감성점질수도토。재염양배양과정중,불동온도하안담농도여산갑완시종보지비교고적상관성,이유궤탄함량적변화여산갑완적상관성수온도승고이하강,설명고온하영향토양산갑완적인소교저온복잡득다。여감성토양상비,불동온도하산성토양pH치적변화대산갑완적영향교대。
In order to study the impact of tempereture on methane production and analyse the correlation between methane emission and environment factors in different pH paddy soils, samples like an acidic sandy paddy soil (pH 4.67) and an alkaline clayey paddy soil (pH 7.88) were anaerobicly incubated at 15℃, 25℃, 37℃and 50℃for 100 days. During the incubation the changes of the cumu-lant of methane-production and soil characteristics such as pH, organic carbon and nitrogen of ammonium were measured. The results indicated that the cumulant and rate of methane production increased with the increasing temperatures in the range of 15℃-37℃and reached the maximum at 37℃in both of acidic sandy paddy soil and alkaline clayey paddy soil. We also found that the methan pro-duction of acidic sandy paddy soil which contained more carbon content and high concentration of ammonium nitrogen were always higher than those in alkaline clayey paddy soil whith the scope of 15℃-37℃, however, this phenomenon was reversed at 50℃. Under high temperature, the cumulant and rate of methane production in acidic sandy paddy soil dropped much more obviously and fell be-low 25℃, but the changes of methane production in alkaline soil were not significant. It indicated that the impact of high temperature was greater in sandy paddy soil. During the process of anaerobic culture, the correlation coefficients between the changes of ammoni-um concentration and methane production always maintained in a relatively high value under different temperatures. However the cor-relation coefficients between methane emission and carbon content decreased with increasing temperature, which indicated that there were much more complex factors influenced methane production in higher temperature. Compared with alkaline soil, the changes of pH in acidic soil at different temperatures had more significantly influence on the methane production.
