摘要
利用1951-2010年海口市国家基准气候站逐月平均气温、降水量、日照时数等数据,采用线性倾向率、Mann-Kendall非参数检验、滑动T检验、累积距平法和Morlet小波分析等数理统计方法 ,分析了海口市1951-2010年的气候变化特征。结果表明:海口市近60a气候变化表现为气温显著上升、日照时数显著减少,但降水量变化不明显。20世纪90年代是气温升高、降水量增多、日照时数减少的显著变化稳定期,2000年以后气候变化波动最强烈。旱季气温增幅明显大于雨季,但降水量变化较小。此外,旱季气候要素波动大于雨季。气候突变和小波分析得出,1986年是气温由低到高的突变点,1967-1978、1998-2010年分别是冷期和暖期;1976年是降水量发生由多到少的突变点,1993年是日照时数发生由多到少的突变点。海口市气温和降水量变化均存在5-10a左右的周期,日照时数存在5-8a、25-28a左右的周期。
Haikou is one of the most important ecological tourist city in China, even throughout the World. The ecological environment and climate is the most precious natural resources. Carrying out the research of climate change characteristics in Haikou could be used to enhance its ability to adapt to the long-term effects of climate change, and delay or avoid the threats caused by climate change to regional ecological security. This paper used the data of monthly mean temperature, precipitation and sunshine duration during the period from 1951-2010 observed by national benchmark climate station and combined with some mathematical statistics methods such as linear regression method, Mann-Kendall nonparametric test, moving T-test, cumulative anomaly method and Morlet wavelet to analyze climate change characteristics in Haikou City. The results indicated that the climate change presented increasing annual mean temperature, decreasing annual sunshine duration, and climate tendency rate was0.18 ℃/(10 a) and-83.1 h/(10 a) at the significance level α=0.01 respectively, the increasing rate of annual mean temperature was distinctly lower than that in whole China, and decreasing rate of annual sunshine duration significantly higher than in whole China. Moreover, no significant long-term change was observed in annual precipitation in the past 60 a. The stable period of climate changed significantly appeared in 1990 s, mainly showed that increasing annual mean temperature and annual precipitation, decreasing annual sunshine duration,and fluctuations in climate change became the strongest since 2000 years. This indicated that the frequency and intensity of extreme weather events such as heat damage, floods and droughts will increase in the near future. In addition, the increasing rate of temperature in dry season was significantly higher than that in rainy season, but the change rate of precipitation was more obvious in rainy season than that in dry season. In addition, the fluctuation of climatic elements was more obviou
出处
《热带作物学报》
CSCD
北大核心
2016年第10期2020-2027,共8页
Chinese Journal of Tropical Crops
基金
高原大气与环境四川省重点实验室开放课题(No.PAEKL-2014-C7)
