Mangrove forest degradation indicated by mangrove-derived organic matter in the Qinzhou Bay,Guangxi,China,and its response to the Asian monsoon during the Holocene climatic optimum

The response of mangrove ecosystems to the Asian monsoon in the future global warming can be understood by reconstructing the development of mangrove forests during the Holocene climatic optimum（HCO）, using proxies preserved in coastal sediments. The total organic matter in sediments of a segmented core, with calibrated age ranges between 5.6 and 7.7 cal. ka BP and corresponding to the HCO, from the Qinzhou Bay in Guangxi, China, is quantitatively partitioned into three end-members according to their sources： mangrove-derived, terrigenous,and marine phytoplanktonic, using a three-end-member model depicted by organic carbon isotope（δ13Corg） and the molar ratio of total organic carbon to total nitrogen（C/N）. The percentage of mangrove-derived organic matter（MOM） contribution is used as a proxy for mangrove development. Three visible drops in MOM contribution occurred at ca. 7.3, ca. 6.9, and ca. 6.2 cal. ka BP, respectively, are recognized against a relatively stable and higher MOM contribution level, indicating that three distinct mangrove forest degradations occurred in the Qinzhou Bay during the HCO. The three mangrove forest degradations approximately correspond to the time of the strengthened/weakened Asian winter/summer monsoon. This indicates that even during a period favorable for the mangrove development, such as the HCO, climatic extremes, such as cold and dry events driven by the strengthened/weakened Asian winter/summer monsoon, can trigger the degradation of mangrove forests.

Early Jurassic Climate Warming in Eastern Siberia: First Macrofloristic Evidence from Irkutsk Basin, Russia

Numerous new records of Ferganiella, Podozamites, and Schidolepium, including a new species, Ferganiella ivantsovii sp. nov., are described from the Early Jurassic(Toarcian) Middle Subformation of the Prisayan Formation from the Euro-Sinian paleofloristic region in the Irkutsk Basin, Eastern Siberia, Russia. An analysis of the paleogeographic distribution of Ferganiella and Podozamites shows that both genera were the most diverse and numerous in the East Asian province of the Euro-Sinian region and in the Northern Chinese province of the Siberian region during the Early and Middle Jurassic. These phytochoria were located in the subtropical and temperate subtropical climate zones, which allows us to consider Ferganiella and Podozamites as thermophilic plants, which are important indicators of the Early Toarcian climatic optimum. Their abundance in the Irkutsk Basin thus may indicate Early Toarcian warming;further abundant Schidolepium cones, which produced Araucariacites pollen, typical for Euro-Sinian flora complement the scenario. Thus, the new finds are the first macrofloristic indicators of the Toarcian climatic optimum in the Irkutsk Basin.

ORPOM model for optimum distribution of tree ring sampling based on the climate observation network

Tree ring dating plays an important role in obtaining past climate information.The fundamental study of obtaining tree ring samples in typical climate regions is particularly essential.The optimum distribution of tree ring sampling sites based on climate information from the Climate Observation Network(ORPOM model) is presented in this article.In this setup,the tree rings in a typical region are used for surface representation,by applying excellent correlation with the climate information as the main principle.Taking the Horqin Sandy Land in the cold and arid region of China as an example,the optimum distribution range of the tree ring sampling sites was obtained through the application of the ORPOM model,which is considered a reasonably practical scheme.

中新世中低纬度海道变化对大西洋经圈翻转流和气候变化影响的模拟研究

自中中新世以来,特提斯海道和巴拿马海道的开合状态可能直接影响了大西洋经圈翻转流(AMOC)的强度和空间形态演变。但是,当前对这两处关键的中低纬度海道与AMOC之间联系的系统性研究较少。本研究基于中中新世时期的边界条件,利用耦合气候模式开展了中中新世气候模拟试验,以及特提斯海道和巴拿马海道先后关闭的敏感性试验。模拟结果显示,开放的特提斯海道和巴拿马海道分别为热带印度洋和太平洋海水进入北大西洋提供了“捷径”,同时分别向北大西洋输运高盐度海水和低盐度海水,对AMOC强度的变化起着相反的作用。特提斯海道开放增强了AMOC,这抵消了巴拿马海道开放导致的对AMOC的减弱。这两处中低纬度海道的关闭均能引起全球海表温度的南北不对称响应,分界线大致位于巴拿马海道所在纬度。本研究表明,只有特提斯海道和巴拿马海道关闭时,才会形成现代意义上的AMOC空间结构,因此这两处中低纬度海道的关闭时间对研究AMOC演变具有重要意义。

中中新世气候适宜期全球变暖背景下亚洲内陆干旱区古气候演化特征及驱动机制

中中新世气候适宜期是新生代全球降温趋势下一次强烈的全球升温事件,其气候状态被认为是未来全球变暖最可能达到的状态。亚洲内陆干旱区是全球典型的中纬度干旱区,其干旱化过程对人类生存环境影响最为深刻、最为直接。在全球变暖背景下,叠加人类活动的影响,干旱区变得更加脆弱,其扩张或变迁都会直接影响人类的生存和可持续发展。探讨亚洲内陆干旱区在中中新世全球气候变暖背景下的气候演化历史,对未来气候变暖模式下干旱区的气候变化预估提供重要参考。本文梳理了亚洲内陆干旱区典型盆地现有中中新世期间古气候演化研究结果,通过环境磁学参数、孢粉、同位素等多种气候代用指标的综合分析,发现在中中新世期间,多数地区呈现湿润化,但开始的时间有所差异,同时,少量地区呈现持续干旱化的现象。另一方面,对中中新世适宜期形成的主控因素依然存在较大争议,有的学者认为哥伦比亚玄武岩喷发是主要因素,有的学者认为构造活动是主要因素。要解决上述争议,需要获取更多具有精确年代控制的高分辨率记录,以确定中中新世升温事件的起始响应时间。通过正确解译气候代用指标,特别是对古气候变化响应最为直接和敏感的孢粉,以及环境磁学参数和地球化学比值等蕴含的古环境信息,厘清各种因素对气候变化造成的影响,揭示亚洲内陆干旱区中中新世气候适宜期气候演化的驱动机制。

Adaptation of potato production to climate change by optimizing sowing date in the Loess Plateau of central Gansu, China

Potato grows in most part of China, it achieves higher yield and better quality in Gansu Province than in others. With global warming, its growth duration has been prolonged and sowing date become earlier than before. Therefore, to regulate its sowing date and growing period is of great significance for better harvest. In this study, experiments were conducted with six sowing-date treatments of potato in Dingxi, which is in the Loess Plateau of central Gansu Province in Northwest China in 2010. The growth period, morphological index and change in yield and their relationships with temperature, precipitation, and other climatic factors were investigated for each treatment. Results show that the crop with different sowing dates experienced different climate conditions, leading to distinct growth duration, plant height, and leaf area index. The growth duration was shortened due to a delay in sowing date. For each 15-day delay in sowing, the growth duration was reduced by 12 days on average. A significant linear relationship was found between numbers of days either from seeding to emergence or from flowering to harvest and mean temperature over the corresponding period. Dry matter accumulation, tuber fresh weight, and final yield were all decreased because of insufficient cumulative temperature over the shorter growing periods. Marked differences in tuber yield were discovered among the six treatments of sowing date, the potato planted on May 27 giving the highest yield. The potato planted either earlier or later would produce invariably lower yield than the treatment of May 27. Late May therefore can be taken as the optimum sowing time of potato in this region because the crop can fully utilize thermal resource. We conclude that to postpone sowing time is a good practice for potato production to adapt to climate warming in the Loess Plateau of central Gansu, China.

The Optimum Sowing Time for Plastic-film Corn and the Application of Two Related Theories

There are two main theories, the 'temperature-raising' theory and the 'precipitation-based regulation' theory, which guide the optimum sowing time of the plastic-film corn. The former was applied in the humid or semi-humid ecotope and on irrigated or half-shaded land in the arid and semi-arid ecotopes, while the latter was suitable for the dry-farming land in the semi-arid ecotope. The results of experiments and investigations for many years showed that the corn output was increased by 69.2% when the former theory was applied to guide the optimum sowing time for plastic-film corn in the semi-humid ecotope, and by 60. 0% when the latter theory was applied in the semi-arid ecotope. In the semi-arid ecotope, however, the output was increased only by 15.7% when the former theory was applied, and even dropped by 14.4% when the latter theory was applied.

气候变暖对晋北黄土高原半干旱区马铃薯适播期的影响

以气候变暖为主要特征的气候变化对马铃薯物候期、生长发育及产量都产生很大影响,研究马铃薯生长季热量资源和适播期变化特征,对调整品种布局和合理利用气候资源具有重要意义。利用1981—2016年晋北地区地面气象观测站和农业气象观测站资料,通过趋势分析和相关分析,研究晋北马铃薯气候资源变化特征及对马铃薯产量的影响;基于积温稳定性原理,建立气象产量预测模型,得出最高气象产量对应的适播期,并分析适播期的年代变化特征。结果表明,晋北马铃薯生长季气温以0.32℃·10a^(-1)速率呈升温趋势,≥5℃积温以47.0℃·d·10a^(-1)速率呈增加趋势。气候变暖背景下对晋北马铃薯产量影响显著的气候因子主要是出苗~分枝期的平均气温,全生育期的积温、日照时数、需水量,出苗~分枝期、花序形成~可收期及全生育期的最高气温≥30℃的日数。气温和日照基本为负效应,降水在营养生长期为负效应,生殖生长期为正效应。晋北马铃薯适播期随着气候变暖有提前的趋势,20世纪80年代适播期在5月上旬末至5月中旬,90年代适播期在5月上旬,21世纪最初10 a适播期在4月下旬至5月上旬初,2010年以后马铃薯适播期提前到4月中旬末至4月下旬。建议晋北黄土高原半干旱区盆地地区种植中晚熟品种,尽量选择早播,可以选择4月中旬末至4月下旬,高海拔地区建议种植中熟品种或采取地膜覆盖提早播期来种植中晚熟品种,可以在4月下旬末至5月上旬播种。

Spatial patterns of vegetation and climate in the North China Plain during the Last Glacial Maximum and Holocene climatic optimum

Reconstructing the spatial patterns of regional climate and vegetation during specific intervals in the past is important for assessing the possible responses of the ecological environment under future global warming scenarios. In this study, we reconstructed the history of regional vegetation and climate based on six radiocarbon-dated pollen records from the North China Plain. Combining the results with existing pollen records, we reconstruct the paleoenvironment of the North China Plain during the Last Glacial Maximum(LGM) and the Holocene Climatic Optimum(HCO). The results show that changes in the regional vegetation since the LGM were primarily determined by climatic conditions, the geomorphic landscape and by human activity.During the LGM, the climate was cold and dry;mixed broadleaf-coniferous forest and deciduous-evergreen broadleaf forest developed in the southern mountains, and cold-resistant coniferous forest and mixed broadleaf-coniferous forest were present in the northern mountains. The forest cover was relatively low, with mesophytic and hygrophilous meadow occupying the southern part of the plain, and temperate grassland and desert steppe were distributed in the north;Chenopodiaceae-dominated halophytes grew on the exposed continental shelf of the Bohai Sea and Yellow Sea. During the HCO, the climate was warm and wet;deciduous broadleaf forest and deciduous-evergreen broadleaf forest, with subtropical species, developed in the southern mountains, and deciduous broadleaf forest with thermophilic species was present in northern mountains. Although the degree of forest cover was greater than during the LGM, the vegetation of the plain area was still dominated by herbs, while halophytes had migrated inland due to sea level rise. In addition, the expansion of human activities, especially the intensification of cultivation,had a significant influence on the natural vegetation. Our results provide data and a scientific basis for paleoclimate modelling and regional carbon cycle assessment in north China, with implications for predicting changes in the ecological environment under future global warming scenarios.

Stalagmite-inferred Holocene precipitation in northern Guizhou Province, China, and asynchronous termination of the Climatic Optimum in the Asian monsoon territory

An absolute-dated, bi-decadal-resolution, stalagmite oxygen-isotopic time series from Shigao Cave reveals the evolution of summer monsoon precipitation over the past 9.9 ka BP in northern Guizhou Province, Southwest China. The 18O-inferred climate conditions are divisible into three distinct stages: (1) a maximum humid era from 9.9-6.6 ka BP; (2) a gradual declining precipitation interval between 6.6-1.6 ka BP; and (3) a relatively low precipitation time window after 1.6 ka BP. Consistency of contemporaneous stalagmite Holocene 18O records between Shigao and other caves in the Indian and East Asian monsoon realms support the effect of primary orbital solar forcings on monsoonal precipitation. However, statistical analysis shows a significant spatial asynchroneity of the Holocene Optimum termination in the Asian monsoon territory. The Holocene Optimum ended at 7.2-7.4 ka BP in Oman, located in the Indian monsoon region, and at 5.6-5.8 ka BP in Central China, in the East Asian monsoon zone. In Southwest China, the termination occurred between these periods, at 6.6-7.0 ka BP, and was influenced by both monsoon systems. We propose that this spatially asynchronous ending of Holocene Optimum in Asia may be attributed to sea surface temperature changes in the western tropical Pacific, which is a primary moisture source for the East Asian monsoon.

基于模糊数学的甘肃陇南地区农作物气候适宜性分析

【目的】研究小麦、玉米、大豆、棉花4种农作物在陇南山区的气候适宜种植程度,对该区种植业的发展提供可行性建议。【方法】以农作物生长发育所需的温度和降水量为基础,运用模糊数学中隶属函数的方法对该区气候因子(温度、降水)进行数理转化,计算各种农作物生育全过程的温度适宜度(ST(Tt))、降水适宜度(SR(Rt))、水温综合适宜度(Isr),以探求农作物生长发育的气候适宜度,最后通过ArcGis的空间技术对该区4种农作物气候适宜度的空间分布进行分析。【结果】小麦、玉米、大豆在试区的气候适宜度(ST(Tt)、SR(Rt)、Isr)较高;棉花的气候适宜度较低,并且在空间分布上存在较大差异。小麦和棉花的主要影响因子分别是降水和温度;玉米的ST(Tt)和SR(Rt)除了西和、礼县和文县较低外,其他区域均较高,其Isr在空间上呈现四周高中间较低的分布态势;大豆是本区域最适宜种植的作物,但其Isr也存在差别,表现为徽县最高,文县相对最低,呈现出西北-东高,西南-北低的分布状况。【结论】从自然的角度(温度和降水)来看,4种农作物中,小麦、玉米、大豆在陇南地区可大面积种植,但需注意在小麦生长的后3阶段进行适量的人工灌溉;棉花除了徽县盆地和南部的文县和西北的宕昌县能进行小规模种植外,其他的大部分区域均不适宜种植。

山东强筋和中筋小麦品质形成的气象条件及区划

1999—2003年选用4个强筋小麦品种和12个中筋小麦品种在山东省的31个县进行试验,以各试验点当地气象站观测的小麦开花至成熟期的气象资料为依据,采用逐步回归和一元非线性回归模型进行分析.结果表明:平均气温分别为20.0℃和20.5℃时,有利于强筋和中筋小麦面团稳定时间的延长;气温日较差分别为12.7℃和11.7℃时,有利于强筋和中筋小麦籽粒蛋白质含量的提高;降水量分别为48.6mm和52.1mm,日照时数分别为297h和299h时,有利于强筋和中筋小麦沉降值的提高;降水量分别为53.5mm和53.9mm,日照时数分别为295h和298h时,有利于强筋和中筋小麦面团稳定时间的延长.单一气象因子对小麦籽粒蛋白质含量、沉降值和面团稳定时间的影响不完全同步.依据对各地气象条件进行综合评价的结果,将山东省划分为胶东与鲁中强筋、中筋小麦适宜区,鲁西北和鲁西南强筋、中筋小麦次适宜区,鲁南强筋小麦次适宜、中筋小麦适宜区.

南京江北地区全新世土壤粒度分布及其古环境意义

根据对南京江北TZC全新世剖面的野外考察和室内粒度分析,揭示了该地区一万多年以来的成壤环境演变特点。研究结果表明,南京江北地区第一层古土壤为全新世最适宜期(8500～3100aBP)时形成,当时,气候温暖湿润,降水量丰沛,沙尘暴很少发生,成壤极其强烈,其成土母质为末次冰期形成的下蜀黄土,主要是在下蜀黄土堆积成壤基础上的再发育。近3100a来为全新世晚期,季风气候格局发生转变,气候干旱化,沙尘暴频繁发生,在该地区形成了50cm厚的黄土层或表土层。

海气耦合模式的优化方法研究

气候模式不断发展的同时,对高性能计算机提出了更高的要求,如何提高模式在现有计算机资源上的运行效率问题已越来越重要。文章介绍了利用编译器优化和手工优化技术对海气耦合模式进行优化试验,优化后模式运行效率提高60%,表明将这些优化方法应用到气候模式的改进工作中,可以达到较好的效果。

气候变暖背景下宿州冬小麦适播期的确定

利用1954-2007年气候监测资料,采用线性变化倾向率、滑动平均等数理统计方法,研究分析宿州市冬小麦播种-越冬期的气候变化趋势,并提出气候变暖背景下冬小麦的适播期。结果表明,当地传统播种期内(10月5-20日)日平均气温以0.4℃.10a-1的速率显著升高(P<0.01),秋季适宜冬小麦播种的日平均气温16℃的指标推迟出现。按传统播期上、下限播种至小麦越冬时的活动积温呈显著增加趋势(P<0.01)。因此在气候变暖背景下,冬小麦适播期比传统播期推迟7～8d,即在10月15-25日播种,更利于防止小麦冬前旺长、徒长和生育进程提前,实现壮苗越冬。

一种新的气候跃变分析方法及其应用

在探讨目前气候跃变方法的基础上，针对其存在的缺陷，引入费希尔（Ｆｉｓｈｅｒ）最优分割法，并与原方法的统计检验相结合，得到一种新的研究气候跃变的方法．运用该方法对西北地区东部的西安、宝鸡、汉中３地的旱涝等级序列进行气候跃变研究。

基于气候适宜度评价的湖南春玉米优播期分析

构建基于Penman-Monteith公式的春玉米适宜度模型,在1981-2010年日气象数据基础上,模拟得出1km格网的研究区春玉米优播期空间分布图。模拟结果表明,大部分地区优播期与初始播期一致,湘南在2月下旬,湘中和湘北大部分地区在3月上旬,比实际播期要早,全区优播期随高程增加而推迟的趋势明显。根据优播期与初播期的关系,研究区可分为三大区:(1)优播期比初播期晚7d左右的湘南盆地地区;(2)优播期比初播期晚2～3周的高海拔地区;(3)优播期与初播期一致的其它地区。优播期的选择需考虑避开成熟期高温和夏秋旱这两个影响因子,由于它们在不同地区存在差异,应具体分析以获得最适宜的春玉米生长条件。

华北平原冬小麦-夏玉米轮作区采用“两晚”技术的产量效应模拟分析

"两晚"技术即冬小麦播期适当推迟,夏玉米适当晚收,是华北平原冬小麦-夏玉米生产体系适应气候变化的有效措施。本文应用APSIM模型模拟了充分灌溉和雨养条件下"两晚"技术对河北、山东和河南冬小麦-夏玉米轮作体系产量的影响。结果表明:与传统方式相比,气候变暖后(2000-2009年)如果采用"两晚"技术,雨养条件和充分灌溉条件下都会使小麦轻微减产,而玉米较大幅度增产,小麦-玉米轮作体系的产量增加,但各地增加的幅度会有不同。具体表现为:雨养条件下,河北、山东和河南小麦平均减产率分别为7.8%,5.1%和2.5%,玉米平均增产率分别为19.8%,14.5%和13.4%,三地小麦-玉米体系平均增产率分别为10.7%,3.2%和4.8%;充分灌溉条件下,河北、山东和河南小麦平均减产率分别为1.8%,0.5%和0.9%,玉米平均增产率分别为14.2%,8.0%和8.5%,三地小麦-玉米体系平均增产率分别为4.5%,3.4%和2.8%。说明华北平原冬小麦-夏玉米轮作方式中采用"两晚"技术能够适应当前气候变暖特点,实现总产量增加,其中河北省北部地区为增产高值区。

广东雷州半岛晚渐新世—早更新世孢粉共存因子分析及古气候变化重建

广东省雷州半岛新生代钻孔ZKA01揭露的地层序列自下向上为渐新统涠洲组、中新统下洋组、角尾组、灯楼角组、上新统望楼港组、下更新统湛江组和中更新统北海组,涠洲组—望楼港组为滨浅海沉积,湛江组和北海组为陆相河湖相沉积。本文在ZKA01钻孔地层中自下向上88个层位中获取的29311粒孢粉化石的81个属中,选取了常见的种子植物花粉种属42个,通过共存因子分析法,定量重建了研究区晚渐新世—早更新世的古气候参数,划分出晚渐新世—早中新世(25~17 Ma)、中中新世(17~13.5 Ma)、晚中新世—上新世初期(13.5~4 Ma)和上新世—早更新世(4~1.5 Ma)4个气候演化阶段。孢粉共存因子定量法重建的研究区晚渐新世—早更新世4个阶段的古气候变化过程能较好地与全球气候变化的趋势相匹配,晚渐新世—早中新世温度降低的时间拐点大致可与Mi1a气候变冷事件相吻合。中中新世可以与中中新世气候适宜期(MMCO)相对应,表现为炎热潮湿的气候特征。中中新世晚期的气温是下降的,在一定程度上响应了Mi3中中新世气候变冷事件。

浙江仙居县漂流旅游的气候影响因素探讨

采用仙居县漂流旅游项目营业开始迄今的客流量和同期的降水、相对湿度、风速和气温等气象资料对仙居县永安溪漂流的气候影响因素进行了研究。分析了当地的人体舒适度指标,统计了月平均舒适天数,同时探讨了降水和高温的影响,得出适宜的气候条件,计算了各指标的距平百分率,并与客流变化作对比分析。结果表明:5月和10月气候适宜且旅游流量高;4月、7月和9月也为适宜时段,但客流量少,旅游资源有待进一步挖掘。