High Hopes for High Summer

Welcome to high summer[盛夏],dear CE:Teens readers!When we are young, summer can be a magical[不可思议的] time, free from many of the more stressful[紧迫的] parts of our lives,namely,school! But summer can also be a confusing[混乱的] time of year When faced with a long holiday,after we have caught up with friends we haven’t seen for a long time, slept late for the twentieth

Anomalous Western Pacific Subtropical High during Late Summer in Weak La Nia Years: Contrast between 1981 and 2013

Both 1981 and 2013 were weak La Nifia years with a similar sea surface temperature （SST） anomaly in the tropical Pacific, yet the westem Pacific subtropical high （WPSH） during August exhibited an opposite anomaly in the two years. A comparison indicates that, in the absence of a strong SST anomaly in the tropics, the cold advection from Eurasian high latitudes and the convection of the western Pacific warm pool play important roles in influencing the strength and position of the WPSH in August. In August 1981, the spatial pattern of 500 hPa geopotential height was characterized by a meridional circulation with a strong ridge in the Ural Mountains and a deep trough in Siberia, which provided favorable conditions for cold air invading into the lower latitudes. Accordingly, the geopotential height to the north of the WPSH was reduced by the cold advection anomaly from high latitudes, resulting in an eastward retreat of the WPSH. Moreover, an anomalous cyclonic circulation in the subtropical western Pacific, excited by enhanced warm pool convection, also contributed to the eastward retreat of the WPSH. By contrast, the influence from high latitudes was relatively weak in August 2013 due to a zonal circulation pattern over Eurasia, and the anomalous anticyclonic circulation induced by suppressed warm pool convection also facilitated the westward extension of the WPSH. Therefore, the combined effects of the high latitude and tropical circulations may contribute a persistent anomaly of the WPSH in late summer, despite the tropical SST anomaly being weak.

Influence of the Mascarene High and Australian High on the Summer Monsoon in East Asia: Ensemble Simulation

By using a nine-level atmospheric general circulation model developed at the Institute of Atmospheric Physics (IAP 9L AGCM), two sets of numerical experiments are carried out to investigate the influence of the Mascarene high (MH) and Australian high (AH) over the southern subtropics upon the East Asian summer monsoon circulation and summer precipitation in East Asia. The use of ensemble statistics is adopted to reduce the simulation errors. The result shows that with the intensification of MH, the Somali low-level jet is significantly enhanced together with the summer monsoon circulation in the tropical Asia and western Pacific region. Furthermore, the anticyclonic anomaly in the tropical western Pacific to the east of the Philippines may induce a weak East-Asia-Pacific teleconnection pattern. In the meantime, geopotential height in the Tropics is enhanced while it is reduced over most regions of mid-high latitudes, thus the northwestern Pacific subtropical high at 500 hPa extends southwestward, resulting in more rainfall in southern China arid less rainfall in northern China. A similar anomaly pattern of the atmospheric circulation systems is found in the experiment of the intensification of AH. On the other hand, because the cross-equatorial currents associated with AH are much weaker than the Somali jet, the anomaly magnitude caused by the intensification of AH is generally weak, and the influence of AH on summer rainfall in China seems to be localized in southern China. Comparison between the two sets of experiments indicates that MH plays a crucial role in the interactions of general atmospheric circulation between the two hemispheres.

Numerical Study of Ural Blocking High＇s Effect Upon Asian Summer Monsoon Circulation and East China Flood and Drought

In terms of Kuo-Qian pesigma incorporated coordinate five-level primitive equation spheric band (70°N-30°S)model with the Ural high's effect introduced into it as initial and boundary conditions, study is made of the high's influence on Asian summer monsoon circulation and dryness / wetness of eastern China based on case contrast andcontrol experiments. Rusults show that as an excitation source, the blocking high produces a SE-NW stationarywavetrain with its upper-air atnicyclonic divergent circulation oust over a lower-level trough zone) precisely over themiddle to lower reaches of the Changjiang River, enhancing East Asian westerly jet, a situation that contributes toPerturbation growth, causing an additional secondary meridional circulation at the jet entrance, which intensifies theupdraft in the monsoon area. As such, the high's presence and its excited steady wavetrain represent the large-scalekey factors and acting mechanisms for the rainstorm over the Changjiang-Huaihe River catchment in the easternpart of the land.

Assessment of the Summer South Asian High in Eighteen CMIP5 Models

The South Asian High(SAH) is one of the most important components of the Asian summer monsoon system. To understand the ability of state-of-the-art general circulation models(GCMs) to capture the major characteristics of the SAH, the authors evaluate 18 atmospheric models that participated in the Coupled Model Intercomparison Project Phase 5/Atmospheric Model Intercomparison Project(CMIP5/AMIP). Results show that the multi-model ensemble(MME) mean is able to capture the climatological pattern of the SAH, although its intensity is slightly underestimated. For the interannual variability of the SAH, the MME exhibits good correlation with the reanalysis for the area and intensity index, but poor skill in capturing the east-west oscillation of the SAH. For the interdecadal trend, the MME shows pronounced increasing trends from 1985 to 2008 for the area and intensity indexes, which is consistent with the reanalysis, but fails to capture the westward shift of the SAH center. The individual models show different capacities for capturing climatological patterns, interannual variability, and interdecadal trends of the SAH. Several models fail to capture the climatological pattern, while one model overestimates the intensity of the SAH. Most of the models show good correlations for interannual variability, but nearly half exhibit high root-mean-square difference(RMSD) values. Six models successfully capture the westward shift of the SAH center in the interdecadal trends, while other models fail. The possible causes of the systematic biases involved in several models are also discussed.

Anomalous Western Pacific Subtropical High during El Nino Developing Summer in Comparison with Decaying Summer

The anomalous behavior of the western Pacific subtropical high （WPSH） in E1 Nifio developing summer is studied based on the composite results of eight major E1 Nifio events during 1979-2013. It is shown that the WPSH tends to retreat eastwards with weak intensity during the developing summer. The anomaly exhibits an intraseasonal variation with a weaker anomaly in June and July and a stronger anomaly in August, indicating that different underlying physical mechanisms may be responsible for the anomalous WPSH during early and late summer periods. In June and July, owing to the cold advection anomaly characterized as a weak northerly anomaly from high latitudes, geopotential height in East Asia is reduced and the WPSH tends to retreat eastwards slightly. By contrast, enhanced convection over the warm pool in August makes the atmosphere more sensitive to E1 Nifio forcing. Consequently, a cyclonic anomaly in the western Pacific is induced, which is consistent with the seasonal march of atmospheric circulation from July to August. Accordingly, geopotential height in the western Pacific is reduced significantly, and the WPSH tends to retreat eastwards remarkably in August. Different from the developing summer, geopotential height in the decaying summer over East Asia and the western Pacific tends to enhance and extend northwards from June to August consistently, reaching the maximum anomaly in August. Therefore, the seasonal march plays an important role in the WPSH anomaly for both the developing and decaying summer.

THE TIMING OF SOUTH-ASIAN HIGH ESTABLISHMENT AND ITS RELATION TO TROPICAL ASIAN SUMMER MONSOON AND PRECIPITATION OVER EAST-CENTRAL CHINA IN SUMMER

The timing of the South Asian High(SAH) establishment over the Indochina Peninsula(IP) from April to May and its relations to the setup of the subsequent tropical Asian summer monsoon and precipitation over eastern-central China in summer are investigated by using NCEP/NCAR daily reanalysis data,outgoing longwave radiation(OLR)data and the daily precipitation data from 753 weather stations in China.It is found that the transitions of the zonal wind vertical shear and convection establishment over tropical Asia are earlier(later) in the years of early(late) establishment of SAH.In the lower troposphere,anti-cyclonic(cyclonic) anomaly circulation dominates the equatorial Indian Ocean.Correspondingly,the tropical Asian summer monsoon establishes earlier(later).Furthermore,the atmospheric circulation and the water vapor transport in the years of advanced SAH establishment are significantly different from the delayed years in Asia in summer.Out-of-phase distribution of precipitation in eastern-central China will appear with a weak(strong) SAH and western Pacific subtropical high,strong(weak) ascending motion in the area south of Yangtze River but weak(strong) ascending motion in the area north of it,and cyclonic(anti-cyclonic) water vapor flux anomaly circulation from the eastern-central China to western Pacific.Accordingly,the timing of the SAH establishment at the upper levels of IP is indicative of the subsequent onset of the tropical Asian summer monsoon and the flood-drought pattern over eastern-central China in summer.

Studies on the Relationship Between Grain-yield and Climatic Ecological Factors in Summer Corn Under Super-high-yielding Cultivation Conditions

Cultivation experiments on super-high-yield (^12000kg/ha) of summer corn (Zea mays L.) were conducted in Laizhou, Shangdong Province, from 1986 to 1997, and in Wenxian, Henan Province, from 1996 to 1997. The results showed that requirements of accumulated temperature and hours of sunshine for super-high-yield of summer corn could be met in normal years in the areas of the Huanghuaihai Plain. Amount of precipitation influenced the yield most strongly in indirect way among all the meteorological factors, and the relationship between them displayed significant negative correlation (r= - 0.5418). The regression equation between yield and amount of precipitation at seedling stage and grain filling stage both reached significant level, and the partial regression coefficients were - 4.8735 and - 13.7415, respectively. Further research revealed that the key climatic-ecological factors influencing yield were as fellows: the average temperature in the third and the ninth Xun (note: a Xun indicates ten days and the accounting of Xun was from the corresponding sowing date), the hours of sunshine in the sixth and the eighth Xun, the amount of precipitation in the sixth, the seventh and the second Xun. Results obtained by analyzing yield components of summer corn showed that grain numbers per ear (GN/E) made greater contribution to super-high-yield than kernel weight (KW) and the numbers of ears did. The key factors influencing GN/E were the amount of precipitation in the sixth and the eighth Xun and the hours of sunshine in the sixth Xun, with the correlation coefficients of -0.6074, 0.5793 and 0.5854, respectively.

钙肥不同水平对高温夏季生姜幼苗的生理特征和叶绿素荧光的影响

为探明钙对生姜幼苗生长发育的调控机制,对生姜夏季安全生产提供理论依据及技术途径,笔者以“莱芜大姜”为试材,以不添加钙为对照,用盆栽培养方法,研究Ca(NO_(3))_(2)浓度分别为2.5,5.0,7.5,10.0,12.5g·株^(-1)对夏季高温时生姜幼苗叶片生理及光合特征的影响.结果显示,随着高温时间的持续,未施Ca肥处理的生姜叶片硝酸还原酶活性、色素含量及光合作用参数逐渐降低,电解质渗透率增加;Fv/Fm,ФPSII,Fv'/Fm',qP和P持续下降,而NPQ恰好相反.添加Ca(NO_(3))_(2)可有效缓解夏季高温对生姜植株的伤害,表现为生姜植株的电解质渗透率数值下降,生姜叶片叶绿素和类胡萝卜素含量升高,抑制生姜叶片硝酸还原酶NR活性及光合效率Pn的下降幅度;PSII的正常生理功能得以维护,叶绿素荧光参数得到有效改善.生姜叶片的各测定指标随Ca(NO_(3))_(2)浓度的增大出现先升后降或先降后升的趋势,Ca(NO_(3))_(2)浓度为10.0g·株^(-1)时,各处理的指标达到最佳,超过该最适浓度值后,各测定指标均出现下降或上升.以上表明,合适浓度的Ca(NO_(3))_(2)能有效提高叶片光合性能,增强夏季生姜幼苗的耐热性.

授粉期高温胁迫对夏玉米植株形态、叶片光合及产量的影响

针对黄淮海地区花期高温影响夏玉米安全生产的问题,本研究以热敏感型品种‘先玉335’为试验材料,以大田常温为对照(CK),设置授粉期高温处理(HT),研究授粉期高温胁迫对夏玉米植株形态、叶片光合特性、干物质积累与分配及产量形成的影响。结果表明:2021年和2022年,HT处理的冠层最高温度超过40℃的天数分别为7 d和8 d,高温处理期间冠层最高温度分别较CK高1.7~6.8℃和1.5~4.6℃。HT处理显著提高了夏玉米株高和穗位高,对茎粗和叶面积无显著影响,但延缓了生育后期叶片衰老,2021年和2022年成熟期的叶面积较CK分别显著提高34.69%和163.72%。高温处理期间,HT处理的玉米叶片气孔导度、蒸腾速率和胞间CO_(2)浓度显著升高(P<0.05,P<0.01),叶片羧化效率、气孔限制值和水分利用效率显著降低(P<0.05,P<0.01);叶片净光合速率随处理温度而变化,处理温度过高(一般>40℃时)则显著降低(P<0.05),反之则显著升高(P<0.05)或无显著变化,叶片整体光合性能下降。高温胁迫解除后,HT处理的叶片光合性能相关参数逐渐与CK趋于一致。经授粉期高温胁迫处理后,玉米茎秆、叶片、苞叶、穗轴和单株干重降低,其中穗轴干重降幅最大,而雄穗和花丝干重增加,使得干物质向茎秆、叶片、雄穗、花丝等部位的分配比例增加,而向穗轴的分配比例显著减少(P<0.05)。至成熟期,HT处理造成玉米籽粒和单株干重显著减少48.32%和16.71%(P<0.05),而玉米茎秆和叶片干重显著增加35.01%和9.48%(P<0.05)。HT处理的结实率和穗粒数分别显著下降54.43%和53.19%(P<0.05),百粒重显著提高10.13%(P<0.05),但籽粒产量显著降低46.82%(P<0.05)。综上,授粉期高温胁迫增强了玉米叶片气孔蒸腾,增加了胞间CO_(2)浓度,降低了叶片羧化效率和水分利用效率,导致植株整体光合性能下降,制约了光合同化物积累及向穗部的转移分配,导致结实率显著下降,穗粒数显著减少,制约了花后光合同化物从“源”(茎秆和叶片)向“库”(籽粒)的转运,最终导致籽粒产量大幅下降。

夏季高温期三倍体和二倍体长牡蛎生理能量学及碳收支的比较研究

为解析夏季高温期三倍体与二倍体长牡蛎(Crassostreagigas)摄食和代谢生理以及能量/碳分配策略的差异,于2022年8月,以三倍体和二倍体长牡蛎为研究对象,在山东荣成桑沟湾采用现场流水法测定滤水率、吸收效率、耗氧率、排氨率等摄食和代谢相关生理参数,并基于能量收支方程估算能量分配与碳分配情况。结果显示,三倍体长牡蛎的滤水率、同化效率均高于二倍体长牡蛎,但无显著差异(P>0.05);三倍体与二倍体长牡蛎的耗氧率、排氨率存在显著差异(P<0.05),三倍体长牡蛎的耗氧率显著低于二倍体长牡蛎(P<0.05),但排氨率显著高于二倍体长牡蛎(P<0.01)。能量收支与碳收支的结果显示,三倍体长牡蛎的摄食能/碳、同化能/碳均高于二倍体长牡蛎,但无显著差异(P>0.05);三倍体与二倍体长牡蛎的呼吸能/碳、排泄能/碳、生长余力存在显著差异(P<0.05),三倍体长牡蛎的呼吸能/碳显著低于二倍体长牡蛎(P<0.05),但排泄能/碳、生长余力显著高于二倍体长牡蛎(P<0.05)。三倍体和二倍体长牡蛎的氧氮比波动范围分别为7.91~14.11和59.81~94.19,因此,三倍体长牡蛎的主要供能物质为蛋白质,二倍体长牡蛎的主要供能物质为糖类和脂肪。研究结果为揭示夏季高温期长牡蛎倍性效应关联的能量分配方式差异提供了数据支撑。

北疆夏黑葡萄优质高效栽培技术

利用北疆优势自然资源,依托新疆生产建设兵团第五师八十一团夏黑葡萄生产基地,以5年生夏黑葡萄为试验材料,连续5年开展定点比较研究和试验示范,集成应用以“厂”字形架面改造、水肥系统调控、花果精细管理、病虫害绿色防控、机械化等为核心的优质高效栽培技术,葡萄商品果率提高至90%以上,其中“一剪装箱”果品占商品果比率在85%以上,667 m^(2)产值约1.2万元,显著提升了葡萄种植效益,有效推动了北疆地区鲜食葡萄集约化、标准化、机械化发展。

添加脲酶/硝化抑制剂条件下基于^(15)N示踪的夏玉米当季肥料氮去向研究

【目的】以华北平原夏玉米为研究对象,利用高丰度15N同位素示踪方法,探究添加脲酶/硝化抑制剂条件下肥料氮的去向。【方法】于2022−06−25至2022−10−09在河北省廊坊市进行试验。设置5个处理:不施氮肥对照(CK)、单施尿素(U)、尿素+脲酶抑制剂(UI)、尿素+硝化抑制剂(NI)、尿素+脲酶抑制剂+硝化抑制剂(UI+NI),测定了氮素吸收量,监测了累积NH3挥发和N_(2)O排放量,并计算了肥料氮的气态损失量和土壤氮肥残留量。【结果】与单施尿素处理相比,3个添加抑制剂处理UI、NI和UI+NI的地上部吸氮量分别显著提高了39.7%、33.1%和41.8%,氮肥利用率分别显著提高12.5、6.8和12.3个百分点,UI和UI+NI的提升效果显著高于NI。与U和NI相比,UI处理的土壤中肥料氮残留量分别提高了35.6%和27.9%,UI+NI分别提高了45.7%和37.4%。与U处理相比,NI处理的NH3挥发累积量无显著差异,而UI和UI+NI处理土壤的NH3挥发累积量分别显著减少了14.3%和11.6%;UI、NI和UI+NI处理土壤的N_(2)O累积排放量分别显著降低了17.2%、19.9%和34.5%,UI+NI处理土壤的N_(2)O累积排放量又比UI和NI处理分别显著降低了20.9%和18.2%。【结论】尿素配合脲酶/硝化抑制剂施用显著提高了夏玉米的氮素吸收量,添加脲酶抑制剂显著提高了土壤中肥料氮残留量,减少了累积NH3挥发量和N_(2)O累积排放量,而添加硝化抑制剂增加土壤中肥料氮的残留量和减少NH3挥发的效果不显著,但降低了N_(2)O累积排放量。同时配施脲酶抑制剂和硝化抑制剂处理增加了土壤中肥料氮的残留量,降低NH3挥发量和N_(2)O累积排放量的效果显著优于配施一种抑制剂,肥料氮的损失率降至3.7%。因此,在华北平原典型潮土区,夏玉米生产中推荐尿素同时配施脲酶抑制剂和硝化抑制剂,以减少肥料氮的气态损失,提高氮肥当季利用率。

高温干旱复合胁迫对夏玉米生长发育及产量形成的影响

为探究不同生育期不同程度复合高温干旱胁迫对夏玉米生长发育及产量形成的影响,以夏玉米品种“登海685”为试验材料,于2022年6—9月在衡水农业气象试验站开展夏玉米高温干旱田间胁迫试验。在拔节—抽雄和抽雄—乳熟两个生育期分别进行试验。干旱处理设置为轻旱和重旱两个水平。通过增温箱分别在两个生育期进行高温处理,这样每个生育期有轻旱、轻旱高温、重旱、重旱高温四种胁迫处理,各处理有两个重复。此外设置全生育期增温无旱处理和对照组,共10个处理,对株高、叶面积、干物质重及产量构成要素进行观测。结果显示,夏玉米全生育期增温会增加株高和叶面积,但会降低干物质积累导致产量下降;夏玉米在拔节—抽雄和抽雄—乳熟期发生严重的干旱可显著降低株高,但干旱复合高温后影响程度变弱;两个时期发生高温复合干旱与单一干旱相比对玉米叶面积的降低程度更明显;两个时期发生高温干旱胁迫对玉米植株干物质的降低主要由果实干物质降低带来;这两个阶段高温干旱胁迫均会影响产量形成,但拔节—抽雄期干旱对产量形成的影响更大,而抽雄—乳熟期高温的影响更大。

顺北沙漠地区夏季采集高频影响因素研究

顺北地区位于塔里木盆地沙漠腹地,地表全部为沙漠覆盖,多垄状高大沙丘,高程变化剧烈,激发接收条件较差。但该区油气资源丰富,且大多埋藏较深,目的层一般位于地下7 000 m以下的奥陶系,对采集地震资料品质要求较高。因此,正确地选择施工时间以及激发接收条件是地震勘探的首要环节,直接影响采集地震资料的品质,是地下地质成像的基础。笔者介绍了A区采集夏季施工过程中遇到的采集资料品质变化情况,通过检波器埋置温度、湿度以及深度变化等实验分析介质环境对采集资料品质的影响,确定沙漠区夏季采集受高温蒸发、风沙搬移作用影响,使地表沙质松散,检波器耦合性变差,进而加重采集高频噪音,严重影响采集资料品质。

四川盆地东部再生稻高温伏旱区腋芽萌发期气象适宜度

以四川盆地东部再生稻高温伏旱区为研究区,基于气象条件对腋芽萌发期再生稻生长发育的影响机理,采用结构方程模型探明了腋芽萌发的影响因素、影响路径及影响强度。进一步结合隶属函数和层次分析法,构建了再生稻腋芽萌发气象适宜度模型,并分析了1981—2021年研究区腋芽萌发期气象影响因素及气象适宜度的变化特征。结果表明:气温、空气湿度、降水是四川盆地东部再生稻高温伏旱区腋芽萌发的关键影响因素,基于以上因素的气象适宜度模型能较好地评价再生稻腋芽萌发期的气象影响。1981—2021年研究区气温适宜度、空气湿度适宜度及综合气象适宜度均呈下降趋势,降水适宜度没有表现出明显的变化趋势。气温适宜度、空气湿度适宜度及综合气象适宜度总体呈“西高东低”的空间分布特征,降水适宜度则表现为“东西高、中部低”。1981—2021年研究区气温上升趋势与空气湿度下降趋势显著,导致致害高温(日平均气温≥32℃)积温和致害低湿(日平均相对湿度≤65%)日数明显增加,这是再生稻腋芽萌发期气象适宜度总体呈下降趋势的诱因。

高温越夏日本大葱种质表型性状差异及亲缘关系研究

为了鉴定、筛选出越夏高产大葱种质并用于耐高温品种改良和选育,以42份日本大葱种质为试材,采用形态鉴定方法,在塑料大棚环境下研究了经高温越夏后种质的表型性状差异和亲缘关系远近,并用隶属函数法对初筛种质进行综合评价。结果表明:42份种质单株质量、株高、假茎质量、假茎长、假茎直径、叶长、叶扁宽、宿存叶片数、假茎指数和叶形指数10个数量性状的变异范围为10.50%~38.60%,平均值为19.62%。其中,假茎质量和单株质量变异系数较高,分别为38.60%和37.23%。经聚类分析将42份种质聚为1个高细类型、1个矮细类型、2个矮粗类型亚组共计4个组群,组群间性状差异显著。采用隶属函数法对高细类型、矮粗类型第1亚组14份种质进行种质综合评价,排名为喜太郎晚抽、玖源晚抽、什全一本、夏力源、成田一本、智荣、玖美、咏秀、荣辉、金春一本、卡曼、盛源泰32号、川田一本和揽胜。该研究从形态学角度解析了越夏日本大葱种质遗传差异,明确了不同资源亲缘关系远近,为越夏大葱种质筛选和优势杂交育种亲本选择提供了依据。

乡村振兴背景下兰州市高原夏菜产业高质量发展问题及对策

高原夏菜产业作为兰州的支柱产业之一,其高质量发展对推动乡村振兴、实现农民增收致富具有重要的意义。本文从兰州高原夏菜产业的重要作用、产业规模、产业布局、产品质量、品牌建设、产业融合发展等方面客观呈现产业发展现状,总结现阶段生产中存在的问题,提出提升科技支撑能力、全面推进标准化生产,强化数字智能引领、加快产业智慧经营,培育引进经营主体、加快一二三产业融合,抢抓“一带一路”机遇、助推高原夏菜“走出去”等建议,以期推动兰州高原夏菜产业高质量发展,推进乡村振兴建设。

2022年江西省夏秋季高温干旱特征和环流形势分析

【目的】为提升江西省夏秋季异常高温干旱预报能力。【方法】利用CIMISS数据中心实际观测资料、NCEP/NCAR再分析资料等,结合气象干旱综合指数(MCI),对江西省2022年夏秋干旱期间的大气环流特征进行分析。【结果】此次高温干旱过程为1961年以来所罕见,高温与干旱均具有时间长、范围广、强度大等特征,两者的叠加与协同,刷新多项气候值纪录。【结论】其大气环流形势具有以下特征:夏季槽脊稳定,副高异常偏强、偏北,孟加拉湾水汽在南海转向,并入东亚副热带夏季风,进入更北方地区,使得干旱发生发展;秋季贝加尔湖附近为弱的负高度距平,中高纬环流平直,经向环流弱于常年同期,冷空气不频繁,少于常年同期;盘踞在华南及江南部分地区分裂的副高系统偏强,阻止冷暖空气在上空交汇,上空气流的下沉造成增温和变干,低层受大陆反气旋环流、南海和西北太平洋气旋性环流影响,造成水汽输送减少,不利于降水的产生,使得干旱继续加剧。此外,7—10月无台风影响,也是江西异常高温干旱的成因之一。

基于文旅融合背景的环渤海地区避暑旅游高质量发展研究

文旅融合发展是统筹文化事业、文化产业发展和旅游资源开发的重要抓手。基于文旅融合发展背景,采用文献研究、实地调研、逻辑分析等方法,系统研究环渤海地区避暑旅游发展的条件、现状及存在问题。研究表明,旅游产品同质化严重、服务质量参差不齐、市场推广力度不足、文旅融合深度不够、区域合作有待夯实、生态环保亟需加强等是环渤海地区避暑旅游发展中现存的主要问题。同时,提出促进区域避暑旅游高质量的具体路径,主要包括:加强产品创新、优化服务体验、强化市场推广、推动文旅融合、夯实区域合作及加强生态环保等,以期为推动环渤海地区避暑旅游的高质量发展提供参考借鉴。