共查询到18条相似文献,搜索用时 93 毫秒
1.
浅析红河州中低海拔日照时数对烟叶品质的影响 总被引:6,自引:0,他引:6
通过对不同海拔高层烤烟生长状况与气象因子的平行调查,采用相关分析,揭示烤烟大田生长期与日照时数的相关关系;不同生长时段要求日照时间不同。用二次曲线模拟了日照时数随海拔高度的变化情况,指出生产优质烟的适宜海拔界限和品质形成最佳时段,为优质烟生产提供科学依据。 相似文献
2.
分析赫章县1950-1997年光、温、水等农业气象条件,针对生产优质烤烟所需的气象条件对赫章县不同海拔高度进行划分,并结合常出现的气象灾害提出相应对策。 相似文献
3.
4.
通过对广西资源县优质烤烟种植期的气候条件与我国烤烟主产区云南玉溪的气候条件的对比分析得知,资源县具有能够满足优质烤烟生长的气候条件,如果能够合理利用气候资源,发展优质烤烟生产,将是当地促进经济发展,脱贫致富的一条新路。 相似文献
5.
利用1991—2020年我国中北亚热带不同烤烟烟区180个国家级气象站气候因子数据,根据影响优质烟叶生长发育的气候条件,分析气候差异性,探究烟叶生长发育的气象规律,应用主成分分析计算各气候因子的权重,依据气候相似原理,对湖北省两大烟区与周边烟区采用改进的欧氏距离作为相似度量指标,并与系统聚类结果进行相似性对比。结果表明:鄂西南、鄂西北、豫西、豫南、豫中、湘西、湘中烟区基本具备了生产优质烟叶的气候条件,除降水量外,其余各气候因子在不同发育期的差值伸根期最大,旺长期次之,成熟期最小。鄂西北和陕南烟区的气候因子最为接近,鄂西南和湘西、川东南烟区的气候因子具有高度相似性,从而为不同区域间借鉴生产经验、优化烤烟种植布局和开发特色优质烟叶提供理论依据。 相似文献
6.
资源县充分利用气候资源种植优质烤烟 总被引:1,自引:0,他引:1
通过对广西资源县优质烤烟种植期的气侯条件与我国烤烟生产区云南玉溪的气候条件的对比分析得知,资源县具有能够满足优质烤烟生长的气候条件,如果能够合理利用气候资源,发展优质烤烟生产,将是当地促进经济发展,脱贫致富的一条新路。 相似文献
7.
利用黔东南州16个气象观测站1961--2007年气温、降水、日照等相关气象资料,根据经纬度和海拔高度采用回归方法计算出钩藤种植基地剑河县关口农场的相关气象要素值,对钩藤旺盛生长期、开花期(最佳采收期)的气温、降雨、日照进行分析,同时分析了影响钩藤生产的主要灾害性天气。结论表明:剑河县关口农场适宜的气温条件,使钩藤约有60d的旺长期、近90d的开花期和最佳采收期;自然降雨分配合理,是生产优质、高产钩藤的保障;日照时数对生长在山谷疏林中的钩藤影响不大;冰雹、大风、冰冻等气象灾害出现的机率小,基本不影响钩藤的种植生产。 相似文献
8.
《气象研究与应用》2018,(4)
利用1988~2017年4月下旬至9月下旬文山州烤烟种植大田期间气象数据资料,对文山州近30a烤烟种植气候特征进行分析,并对关键气候因子风险度进行评估。分析表明:(1)烤烟大田期平均气温、降水量和日照时数都呈现增长趋势,东部高温突出,南部多雨多日照,西部多日照,除富宁大部地区平均气温偏高外,文山州大部分地区均符合优质烟区的气候种植条件。(2)文山州烤烟种植前期平均气温和降水量风险度较高,为主要的气候限制因子,整个生育期日照时数风险度最小,6~8月雨量风险次小;7~8月日照和平均气温风险均表现为东高西低,是中部及其以东地区烤烟种植的主要气候限制因子。综合气候风险度年际分布不均匀,除东部富宁地区外,文山州大部地区具备烤烟种植的较好气候条件,种植综合气候风险东部较高,未来不适宜优质烤烟种植,温度和降水是东部烤烟种植的主要限制气候因子。 相似文献
9.
为增强烤烟对气候变化的适应性,提高烤烟经济效益与品质,以K346品种为材料,于2001年在弥勒县虹溪镇烟叶基地开展移栽试验,研究不同移栽期下的烤烟气象条件、农艺性状和经济效益以及烟叶化学成分进行统计分析,以期得出适宜的移栽期。结果表明:与4月20、30日和5月10日移栽相比,5月20日和5月30日移栽的温度及降水并不存在劣势,但光照与大田期≥10℃活动积温的劣势较明显;4月20日和5月10日移栽的气象条件有利于烟叶生长,而5月30日移栽的气象条件不利于烟叶生长,4月20日至5月10日移栽的气象条件与国内外优质烟区具有很高的相似性,5月20日和5月30日移栽期与国内外优质烟区气候相似程度小于4月20日至5月10日移栽期。适当提前移栽,可增加叶面积指数、株高、茎围和节距;随着移栽时间的推迟,烟叶产量、中上等烟比例和产值呈先上升后下降的规律;烟叶的产量、中上等烟比例、产值综合指标以移栽期为4月30日和5月10日较好。移栽期为4月30日和5月10日的烟叶化学指标总体表现适宜,化学成分协调。弥勒县虹溪镇或气象条件与之类似的烟区在4月30日到5月10日移栽,可以改善烤烟气象条件,易取得优质适产。 相似文献
10.
11.
云南烤烟气候类型及其适宜性研究 总被引:12,自引:0,他引:12
根据云南烤烟气候特点,提出了判别云南烤烟气候类型及其适宜性的指标:热量为一级指标,降水和光照为二级指标。采用综合指标法评判热量条件,对其他多个气候条件应用系统聚类分析,并结合云南烤烟生产实践经验,对云南全部气象站点进行烤烟气候类型划分和适宜性评价。从而得出云南烤烟气候最适宜区和适宜区的地理分布、以及制约云南烤烟种植的主要气候原因,为云南烤烟合理布局和烤烟生产提供了科学依据。 相似文献
12.
13.
14.
Qinglong You Shichang Kang Wolfgang-Albert Flügel Arturo Sanchez-Lorenzo Yuping Yan Jie Huang Javier Martin-Vide 《Theoretical and Applied Climatology》2010,101(3-4):445-457
The Tibetan Plateau (TP) with an average elevation of over 4,000 m asl is the highest and most extensive highland in the world. We used monthly mean sunshine duration from the Chinese Meteorological Administration to examine the spatial and temporal variability of sunshine duration at 71 stations with elevations above 2,000 m asl in the eastern and central TP during the 1961–2005 period. The temporal evolution of the mean annual sunshine duration series shows a significant increase from 1961 to 1982 at a rate of 49.8 h/decade, followed by a decrease from 1983 to 2005 at a rate of ?65.1 h/decade, with an overall significant decrease at a rate of ?20.6 h/decade during the whole 1961–2005 period, which is mainly due to the summer and spring seasons. This confirms the evidence that sunshine duration in the TP ranges from brightening to dimming in accordance with sunshine duration trends in the rest of China. The surface solar radiation downwards from ERA-40 reanalysis data in the same region confirms the brightening/dimming phenomenon shown by the sunshine duration before/after the 1980s. Otherwise, additional climatic variables such as low cloud amount, total cloud amount, precipitation, relative humidity and water vapor pressure, in most cases, exhibit significant negative correlation with sunshine duration in the TP on an annual and seasonal basis before and after 1982, respectively. The trends of these variables suggest that changes in some of them might be related to the brightening and dimming detected with the use of sunshine duration measurements over the TP. We also hypothesize that the impact of anthropogenic aerosols upon the climatic variables analyzed cannot be rejected, especially in the significant increase in low cloud cover since approximately 1980. 相似文献
15.
Yoshimitsu Masaki Tsuneo Kuwagata Yasushi Ishigooka 《Theoretical and Applied Climatology》2010,100(3-4):283-297
We have developed a method for estimating hourly global solar radiation (GSR) from hourly sunshine duration data. This procedure requires only hourly sunshine duration as the input data and utilizes hourly precipitation and daily snow cover as auxiliary data to classify time intervals into six cases according to weather conditions. To obtain hourly GSR using a simple algebraic form, a quadratic function of the solar elevation angle and the sunshine duration ratio is used. Daily GSR is given by a sum of hourly GSRs. We evaluated the performance of the newly developed method using data obtained at 67 meteorological stations and found that the estimated GSR is highly consistent with that observed. Hourly and daily root-mean-square misfits are approximately 0.2 MJ/m2/h (~55 W/m2) and 1.4 to 1.5 MJ/m2/day (~16 to 17 W/m2), respectively. Our classification of weather conditions is effective for reducing estimation errors, especially under cloudy skies. Since the sunshine duration is observed at more meteorological stations than GSR, the proposed new method is a powerful tool for obtaining solar radiation with hourly resolution and a dense geographical distribution. One of the proposed methods, GSRgrn, can be applicable to hourly GSR estimations at different observation sites by setting local parameters (the precipitable water, surface albedo, and atmospheric turbidity) suitable to the sites. The hourly GSR can be applied for various micrometeorological studies, such as the heat budget of crop fields. 相似文献
16.
本文用2019年1~3月四川全省156个国家级地面观测站日照时数平行观测资料,对比评估了自动与人工观测日照时数的小时、日值一致性及分级一致性,分析空间分布规律和不同日照时长对一致性的影响,结果表明:大多数台站人工日照时数略> 自动观测,人工观测值较自动值偏小的台站、二者间均方根误差较大、小时相关系数较低的台站均多出现在盆地地区;攀枝花、甘孜、阿坝、凉山(以下简称“攀枝花、三州”)等日照充足的地区相较于多阴雨的盆地,人工与自动日照时数更接近;攀枝花、三州区域人工观测在日照时长较长的情况下更准确,盆地区域人工观测在日照时长较短的情况下更准确;日自动日照时数> 8h时,人工观测值较自动值易出现偏小,全省人工观测值与自动观测值之间的误差更小,相关性更高;日自动日照时数< 8h时,人工观测值较自动值易出现偏大,在2~8h时,全省人工与自动观测值之间的误差更大,相关性也更差。 相似文献
17.
利用湖南省1962—2010年96个气象站逐日气象资料及5个农业气象试验站1991—2010年油菜生育期观测资料,应用气候统计分析方法,分析了油菜主要生育期气候资源空间分布规律和年际变化特征。结果表明:湖南省油菜全生育期时长无明显地域性差异,生育期间大于等于0℃积温有明显的地域性差异。影响油菜生育期间的主要气象因子为气温和日照时数,不同生育期主要气象因子有所差异。各发育期气候资源空间分布不均,年际变化有差异。冬前苗期和角果发育期的积温呈增加趋势,越冬期的小于等于0℃和小于等于-3℃日数呈减少趋势,蕾薹期日照时数呈减少趋势,开花期和角果发育期日照时数呈增加趋势。总体而言,湖南油菜生育期间的气候资源及其变化趋势有利于油菜生长。 相似文献
18.
Sunshine duration hours over the Greek region 总被引:1,自引:0,他引:1
Summary In this study, the temporal and spatial distribution of bright sunshine hours and relative sunshine duration over Greece are
presented. The datasets used for this study were obtained from the archives of the Hellenic National Meteorological Service
(HNMS). Furthermore, mean annual and seasonal duration of bright sunshine has been estimated from empirical formulae, which
depend on the following parameters:
(i) percentage of land cover around each station (radius of 20 km),
(ii) distance of each station from the nearest coast,
(iii) height above sea level for each station location,
(iv) latitude of each station,
(v) longitude of each station.
Differences between measured and estimated bright sunshine hours are accounted for. In general a good relationship exists
between estimated and observed sunshine values. The annual march of sunshine is simple with a maximum in July and a minimum
in January or December. The spatial distribution of the annual and seasonal bright sunshine duration shows minimum values
in the interior mountain areas of the Greek region (Western Macedonia, Epirus, Central Greece), increasing gradually towards
the coasts of the Ionian and Aegean seas as well as from north to south. The highest sunshine values occur at the southeastern
islands of the Aegean Sea and above the southern coasts of Crete, followed by Attica (Athens area) and the surrounding coastal
areas, the islands of the eastern Aegean Sea and the southwestern coastal and island parts of the Ionian Sea. 相似文献