农业灾害研究
農業災害研究
농업재해연구
JOURNAL of AGRICULTURAL CATASTROPHOLOGY
2014年
2期
48-51,70
,共5页
霜冻%气候变化%特征%共和地区
霜凍%氣候變化%特徵%共和地區
상동%기후변화%특정%공화지구
Frost%C lim ate change%C haracteristic%G onghe areas
为了全面分析共和地区近50年霜冻的气候变化特征,为该地区合理利用气候资源及农业生产提供科学依据,利用青海省海南州气象台1961—2010年地面气象观测资料,采用气候统计方法,对共和地区霜期气候特征及其变化进行了分析。结果表明,近50年来共和地区终霜日呈显著提前趋势,以每10年4.5 d的速度提前,50年来终霜日提前了23 d;初霜日呈显著推后趋势,以每10年7.1 d的速度推后,50年来初霜日推后了35 d;无霜期呈显著延长趋势,以每10年11.9 d的速度延长,50年来延长了60 d。共和地区初(终)霜提前(推迟)的概率为42%(52%),说明共和地区终霜的危害大于初霜。温度对初、终霜日的出现及无霜期的长短有较大影响。随着温度的显著增加,导致初(终)霜日逐渐推迟(提前)以及无霜期的延长;最低气温对初、终霜日及无霜期的影响大于平均气温和最高气温。共和地区初霜日和无霜期与最高气温、最低气温、平均气温呈极显著正相关,而终霜日则呈极显著负相关,且在年际尺度上呈现出很好的对应关系。
為瞭全麵分析共和地區近50年霜凍的氣候變化特徵,為該地區閤理利用氣候資源及農業生產提供科學依據,利用青海省海南州氣象檯1961—2010年地麵氣象觀測資料,採用氣候統計方法,對共和地區霜期氣候特徵及其變化進行瞭分析。結果錶明,近50年來共和地區終霜日呈顯著提前趨勢,以每10年4.5 d的速度提前,50年來終霜日提前瞭23 d;初霜日呈顯著推後趨勢,以每10年7.1 d的速度推後,50年來初霜日推後瞭35 d;無霜期呈顯著延長趨勢,以每10年11.9 d的速度延長,50年來延長瞭60 d。共和地區初(終)霜提前(推遲)的概率為42%(52%),說明共和地區終霜的危害大于初霜。溫度對初、終霜日的齣現及無霜期的長短有較大影響。隨著溫度的顯著增加,導緻初(終)霜日逐漸推遲(提前)以及無霜期的延長;最低氣溫對初、終霜日及無霜期的影響大于平均氣溫和最高氣溫。共和地區初霜日和無霜期與最高氣溫、最低氣溫、平均氣溫呈極顯著正相關,而終霜日則呈極顯著負相關,且在年際呎度上呈現齣很好的對應關繫。
위료전면분석공화지구근50년상동적기후변화특정,위해지구합리이용기후자원급농업생산제공과학의거,이용청해성해남주기상태1961—2010년지면기상관측자료,채용기후통계방법,대공화지구상기기후특정급기변화진행료분석。결과표명,근50년래공화지구종상일정현저제전추세,이매10년4.5 d적속도제전,50년래종상일제전료23 d;초상일정현저추후추세,이매10년7.1 d적속도추후,50년래초상일추후료35 d;무상기정현저연장추세,이매10년11.9 d적속도연장,50년래연장료60 d。공화지구초(종)상제전(추지)적개솔위42%(52%),설명공화지구종상적위해대우초상。온도대초、종상일적출현급무상기적장단유교대영향。수착온도적현저증가,도치초(종)상일축점추지(제전)이급무상기적연장;최저기온대초、종상일급무상기적영향대우평균기온화최고기온。공화지구초상일화무상기여최고기온、최저기온、평균기온정겁현저정상관,이종상일칙정겁현저부상관,차재년제척도상정현출흔호적대응관계。
Using the ground meteoro-logical observation data during 1961-2010 years in Hainan Statem eteorologi-cal observatory of Qinghai Province, and using clim atic statistical methods, the characteristicsoffrostseason clim ate and its changes were analyzed ,for a comprehensive analysis of frost clim ate change in the last 50 years in Gonghe area of Qinghai Province and providing the scientific basis of agricultural pro-duction and rational utilization of cli-mate resources in the area. The results showed that last frost date in almost 50 years was significantly ahead of trends, at arate of 4.5 devery 10 years in ad-vance, and 23 dahead of last frost date in 50 years.The first frost date waspost-poned trends, at a rate of 7.1 devery 10 years later, and first frost date pushed back 35 d in 50 years. The beginning (end ) ahead of frost (postponed) had a probability of 42%(52% ). Description of the last frost dam age was greater than the firstfrost.Firstand lastfrostdate and the length of the frost-free period ap-peared closely related to the temperature. As tem peratures rise, gradually early frost delay,and last frost date in advance gradually ,and the frost-free period ex-tended. In terms of the impact, maxi-mum tem perature and minimum tem per-atures affected more than the average temperature. Maximum temperature, minimum temperature were positive as-sociated with the mean temperature and the first frost days and frost-free season,and the last frost date was negative, and showed a very good relationship on the interannualscales.
