生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2014年
2期
217-222
,共6页
李寅龙%红梅%白文明%韩国栋%王海明
李寅龍%紅梅%白文明%韓國棟%王海明
리인룡%홍매%백문명%한국동%왕해명
控制性降雨%氮素添加%短花针茅草原%气体交换
控製性降雨%氮素添加%短花針茅草原%氣體交換
공제성강우%담소첨가%단화침모초원%기체교환
Rainfall control%Nitrogen addition%Stipa breviflora steppe%Gas exchange
随着对气候变化日趋关注,人们对生态系统气体交换及其主要影响因素进行了大量研究。短花针茅草原作为荒漠草原的典型代表,是亚洲特有的一种草原类型,是最干旱的草原类型,生态环境异常严酷,系统极度脆弱,稳定性差,在自然和人为干扰下极易退化。以短花针茅(Stipa breviflora)草原为研究对象,通过控制降雨量以及氮素添加对生态系统气体交换进行监测,研究气体交换对降雨量和氮素添加的响应过程,揭示降雨量和氮素添加对生态系统气体交换的影响作用。该文在2012年自然条件下,采用自动CO2通量系统(Li-6400, Li-COR, Lincoln, NE, USA)野外测定短花针茅(Stipa breviflora)草原生态系统气体交换数据,比较研究了增雨施肥(WN)、增雨不施肥(W)、减雨施肥(RN)、减雨不施肥(R)、单独施肥(N)、自然状况(CK)条件下2012年气体交换变化规律。结果表明:整个生长季生态系统净 CO2交换(NEE)、总的生态系统生产力(GEP)、生态系统呼吸值(ER)都呈先升高后降低的趋势,并在生长旺盛期(8月)达到最大值。NEE在N、W处理下有升高,其他处理都降低。ER在N、WN处理下都有升高,其他处理都降低。GEP在W、N、WN处理下都有升高,其他处理都降低。NEE、ER、GEP都是在N处理中达到最大值。
隨著對氣候變化日趨關註,人們對生態繫統氣體交換及其主要影響因素進行瞭大量研究。短花針茅草原作為荒漠草原的典型代錶,是亞洲特有的一種草原類型,是最榦旱的草原類型,生態環境異常嚴酷,繫統極度脆弱,穩定性差,在自然和人為榦擾下極易退化。以短花針茅(Stipa breviflora)草原為研究對象,通過控製降雨量以及氮素添加對生態繫統氣體交換進行鑑測,研究氣體交換對降雨量和氮素添加的響應過程,揭示降雨量和氮素添加對生態繫統氣體交換的影響作用。該文在2012年自然條件下,採用自動CO2通量繫統(Li-6400, Li-COR, Lincoln, NE, USA)野外測定短花針茅(Stipa breviflora)草原生態繫統氣體交換數據,比較研究瞭增雨施肥(WN)、增雨不施肥(W)、減雨施肥(RN)、減雨不施肥(R)、單獨施肥(N)、自然狀況(CK)條件下2012年氣體交換變化規律。結果錶明:整箇生長季生態繫統淨 CO2交換(NEE)、總的生態繫統生產力(GEP)、生態繫統呼吸值(ER)都呈先升高後降低的趨勢,併在生長旺盛期(8月)達到最大值。NEE在N、W處理下有升高,其他處理都降低。ER在N、WN處理下都有升高,其他處理都降低。GEP在W、N、WN處理下都有升高,其他處理都降低。NEE、ER、GEP都是在N處理中達到最大值。
수착대기후변화일추관주,인문대생태계통기체교환급기주요영향인소진행료대량연구。단화침모초원작위황막초원적전형대표,시아주특유적일충초원류형,시최간한적초원류형,생태배경이상엄혹,계통겁도취약,은정성차,재자연화인위간우하겁역퇴화。이단화침모(Stipa breviflora)초원위연구대상,통과공제강우량이급담소첨가대생태계통기체교환진행감측,연구기체교환대강우량화담소첨가적향응과정,게시강우량화담소첨가대생태계통기체교환적영향작용。해문재2012년자연조건하,채용자동CO2통량계통(Li-6400, Li-COR, Lincoln, NE, USA)야외측정단화침모(Stipa breviflora)초원생태계통기체교환수거,비교연구료증우시비(WN)、증우불시비(W)、감우시비(RN)、감우불시비(R)、단독시비(N)、자연상황(CK)조건하2012년기체교환변화규률。결과표명:정개생장계생태계통정 CO2교환(NEE)、총적생태계통생산력(GEP)、생태계통호흡치(ER)도정선승고후강저적추세,병재생장왕성기(8월)체도최대치。NEE재N、W처리하유승고,기타처리도강저。ER재N、WN처리하도유승고,기타처리도강저。GEP재W、N、WN처리하도유승고,기타처리도강저。NEE、ER、GEP도시재N처리중체도최대치。
As the main Chinese grassland region and part of the world’s largest contiguous arid and semi-arid steppe ecosystem, the desert steppe of Inner Mongolian plays an increasingly important role in environmental conservation and global climate change. However, this ecosystem has been severely degraded in recent decades due to poor management and increasing human pressures. As a typical desert steppe, stipa breviflora steppe is mainly located in the drought area in Inner Mongolia. Since nitrogen is an important limiting factor in desert steppe of Inner Mongolian, the application of nitrogen may be a useful approach to restore degraded grasslands and increase carbon sequestration. However, the uptake of applied nitrogen mainly depends on water availability. In arid and semiarid ecosystems, rainfall is often the first limiting factor for plant growth and productivity, in which case nitrogen fertilization may only be effective at increasing rangeland production in wet years. The ecosystem gas exchange is a very important indicator in evaluating carbon cycle of terrestrial ecosystems. However, limited studies can be found to address how the water and nitrogen affect the the ecosystem gas exchange in desert steppe. In the present study, the main objectives were to investigate the response of the ecosystem gas exchange to rainfall and nitrogen fertilizer application and to study the interactive effects of water and nitrogen on the ecosystem gas exchange in the stipa breviflora steppe. A comparative study of different water and nitrogen treatments was conducted in the Desert Steppe of Siziwang County in Inner Mongolia, P. R. China in 2012. The randomized complete block design was used with three replications and two nitrogen levels and three water treatments. The nitrogen rates were 0 and 100 kg N ha-1. The three water treatments consisted of control (local annual average rainfall of 58 mm), 70%of control and 130%of control. Under the nature condition, the ecosystem gas exchange was measured by using LI-6400(Li-6400, Li-COR, Lincoln, NE, USA)in the stipa breviflora steppe. Experimental factors are water supplied and N addition under natural conditions. The results were showed that the whole growing season net ecosystem CO2 exchange (NEE), the total ecosystem productivity (GEP), the value of ecosystem respiration (ER) were tested increased at first and then decreased, and in the growing season (August) reached at maximum. Under N, W treatments NEE has been increased, but the other treatments NEE has been reduced. Under N, WN treatments ER has been increased, but the other treatments ER has been reduced. Under N, W, WN treatments GEP has been increased, but the other treatments GEP has been reduced. NEE, ER, GEP reached at maximum at the N treatment. The changing global climate and the predicted increasing frequency of extreme weather in Inner Mongolia in the coming years may result in changes in resource availabilities. Therefore, our research results have important implications for better managing grassland in Inner Mongolia.