Geospatial Analysis of Urban Heat Island Effects and Tree Equity

In recent decades, Urban Heat Island Effects have become more pronounced and more widely examined. Despite great technological advances, our current societies still experience great spatial disparity in urban forest access. Urban Heat Island Effects are measurable phenomenon that are being experienced by the world’s most urbanized areas, including increased summer high temperatures and lower evapotranspiration from having impervious surfaces instead of vegetation and trees. Tree canopy cover is our natural mitigation tool that absorbs sunlight for photosynthesis, protects humans from incoming radiation, and releases cooling moisture into the air. Unfortunately, urban areas typically have low levels of vegetation. Vulnerable urban communities are lower-income areas of inner cities with less access to heat protection like air conditioners. This study uses mean evapotranspiration levels to assess the variability of urban heat island effects across the state of Tennessee. Results show that increased developed land surface cover in Tennessee creates measurable changes in atmospheric evapotranspiration. As a result, the mean evapotranspiration levels in areas with less tree vegetation are significantly lower than the surrounding forested areas. Central areas of urban cities in Tennessee had lower mean evapotranspiration recordings than surrounding areas with less development. This work demonstrates the need for increased tree canopy coverage.

The Effects of Anomalous Snow Cover of the Tibetan Plateau on the Surface Heating

On the basis of snow data and AWS (Automatic Weather Station) data obtained from the Tibetan Plateau in recent years (1993 to 1999), the features of sensible heat, latent heat and net long-wave radiations are estimated, and their variations in more-snow year (1997/ 1998) and less-snow year (1996/ 1997) are analyzed comparatively. The relationships between snow cover of the Tibetan Plateau and plateau’s surface heating to the atmospheric heating are also discussed. The difference between more-snow and less-snow year in spring is remarkably larger than that in winter. Therefore, the effect of anomalous snow cover of the Tibetan Plateau in winter on the plateau heating appears more clearly in the following spring of anomalous snow cover. Key words Tibetan Plateau - Snow cover - Effects - Surface heat fluxes This research was supported by the National Key Programme for Developing Basic Sciences G1998040900 (I), National Natural Science Foundation of China (40075018) and Sichuan Youth Science and Technology Fund.

Development of pot-cover effect apparatus with freezing-thawing cycles

‘Pot-cover effect’ refers to the phenomenon of moisture accumulation beneath the pavement under condensation or desublimation because the vapor transfer in the soil is blocked by the pavement. To study this phenomenon in the laboratory, we have developed the pot-cover effect apparatus with freezing-thawing cycles(PEAFC), which consists of three parts, namely, the vapor transfer system, the temperature control system, and the temperature and water content monitoring system. The major functions of this apparatus include: simulation of both vapor transfer and freezing-thawing cycling in the soil, real-time monitoring of the temperature and the water content in soil samples, and one-dimensional heat and moisture transfer in the samples. The FDR(frequency domain reflectometry) sensors of the apparatus are calibrated and a calibration formula is proposed to eliminate the water content measurement errors induced by temperature changes. Constant temperature difference tests and a freezing-thawing cycling test are conducted with the apparatus. Results indicate that the apparatus can control the water replenishment in the soil samples, monitor the vapor transfer in the samples in real time, and simulate the vapor transfer process under the condition of the freezing-thawing cycling in the soil. These tests verify the effectiveness and reliability of the apparatus, which indicates that the development purpose is achieved.

Recent Progress in Studies on Land Cover Change and Its Regional Climatic Effects over China during Historical Times

The recent progresses on the reconstruction of historical land cover and the studies on regional climatic effects to temperature, precipitation, and the East Asian Monsoon across China were reviewed. Findings show that the land cover in China has been significantly modified by human activities over the last several thousands years, mainly through cropland expansion and forest clearance. The cropland over traditional Chinese agricultural areas increased from 5.32×10^5 km^2 in the mid-17th century to 8.27×10^5 km^2 in the mid-20th century, while the forest area over the Chinese mainland had been reduced by 1.66×10^6 km^2 during the last 300 years. These changes of land cover have been detected as an important driving force of climate change by simulations of climatic effects based on various climate models （including RegCM3, RegCM2-NCC, RIEMS version1, MM5 version 2, and AGCM＋SSiB） with reconstructed historical land cover data or by contrasting current land cover to potential natural vegetation. The human-induced land cover changes over China have led to the enhancement of the East Asian winter monsoon, as well as cooling in winter and warming in summer approximately since 1700. However, the simulation results on annual mean temperature, precipitation, and the East Asian summer monsoon varied from model to model, which cannot be simply attributed to certain forcing so far, but undoubtedly, using different land cover datasets in various simulations played a key role. Thus, developing different regional scales with high time resolution more accurate gridded historical land cover datasets on is needed in the future.

A Numerical Study of the Mechanism for the Effect of Northern Winter Arctic Ice Cover on the Global Short-Range Climate Evolution

By using a nine-layer global spectral model involving fuller parameterization of physical processes, with a rhomboidal truncation at wavenumber 15, experiments are performed in terms of two numerical schemes, one with long-term mean coverage of Arctic ice (Exp.1), the other without the ice (Exp.2). Results indicate that the Arctic region is a heat source in Exp.2 relative to the case in Exp.1. Under the influence of the polar heat source simulated, there still exist stationary wavetrains that produce WA-EUP and weak PNA patterns in Northern winter. That either the Arctic or the tropical heat source can cause identical climatic effects is due to the fact that the anomaly of the Arctic ice cover will directly induce a south-propagating wavetrain, and bring about the redistribution of the tropical heat source / sink. The redistribution is responsible for new wavetrains that will exert impact on the global climate. The simulation results bear out further that the polar region in Exp.2 as a heat source, can produce, by local forcing, a pair of positive and negative difference centers, which circle the Arctic moving eastwards. Observed in the Northern Hemisphere extratropics is a 40-50 day oscillation in relation to the moving pair, both having the same period.

秦巴山区生态系统服务对植被覆盖变化的响应阈值

秦巴山区地处我国南北气候、生物区系的交汇地带,具有十分重要的地理与生态价值,蕴藏着巨大的发展潜力。确定生态系统服务对植被覆盖变化的响应阈值是实现秦巴山区环境资源有效配置、管理政策科学制定以及生态效益最大化的重要前提。在分析秦巴山区产水、固碳、土壤保持和生境质量4项生态系统服务时空特征的基础上,综合运用聚类分析、方差分析和弹性分析对比不同植被类型和地形梯度下生态系统服务的异同进而分区计算植被覆盖变化的影响阈值。结果表明:(1)2000—2020年,产水、固碳、土壤保持和生境质量服务整体提升且均表现为东南高西北低的空间分布。(2)不同类型植被下,生态系统服务整体供应能力从大到小依次为林地、草地和农田。不同地形变化下,除生境质量呈持续增长态势外,其他3项服务均出现了先提高后衰减的非线性趋势。(3)植被覆盖度对生态系统服务有促进作用,但超过一定阈值后这种作用会逐渐减弱。植被覆盖影响阈值在林地、草地和农田区分别为0.85、0.80和0.78;且该阈值随地形因子增加先增大后减小。本研究结果可以转变秦巴山区单纯依靠扩大森林面积提升生态系统服务供给的简单化生态保护模式,为构建分区管理、全面系统和动态平衡的生态可持续发展体系提供依据。

济南南部山区土地利用/覆被变化对碳储量的影响研究

以黄河下游生态脆弱区-济南南部山区为研究对象,基于区域1980~2020年6期土地利用/覆被数据,结合InVEST模型(Integrated Valuation of Ecosystem Services and Trade-offs model),分析区域土地利用/覆被和碳储量的时空分布特征和动态变化规律,研究土地利用/覆被变化对陆地生态系统碳储量的影响.结果表明,土地利用/覆被变化对碳储量的影响较为显著,1980~2005年土地利用变化较小,人类活动影响较小,由于林草地碳储量的累积,碳储量增长速度明显高于其他时期;2005~2010年城市扩张速度最快,城乡建设用地大量侵占耕地、林地和草地,使区域固碳能力明显下降;2010~2020年,由于城市化扩张限制以及植树造林等生态保护措施的实施,区域碳储量逐渐呈增长趋势;1980~2020年济南南部山区的总碳储量呈“增长-下降-增长”的趋势;并且林地是济南南部山区碳储量的主要供给者,区域碳储量值随着远离城乡居民生活中心的距离增大而增大,说明人类活动对区域碳储量有重要的影响.另外,土地利用类型的转移引起地类碳密度的变化,是区域碳储量变化的主要影响因素,土地利用类型的碳储量变化与各地类的面积变化有一定的关系.该成果可为生态脆弱区塑造良好的陆地碳汇格局提供理论依据.

锯末覆盖对沼液贮存过程温室气体排放的影响

为有效控制沼液贮存过程中的温室效应,以锯末为覆盖材料,探究在沼液贮存过程中不同覆盖厚度(2、4 cm和6 cm)对氨气(NH_(3))和温室气体[氧化亚氮(N_(2)O)和甲烷(CH_(4))]排放、微生物群落结构的影响,以综合温室效应为评价指标,筛选出经济有效的降低温室效应的覆盖厚度。结果表明:锯末2、4 cm和6 cm覆盖对NH_(3)减排率分别为37.5%、19.4%和24.2%;对N_(2)O减排率分别为-84.7%、41.9%和44.6%;对CH_(4)减排率分别为-18.7%、16.3%和23.7%。从微生物群落结构来看,各覆盖处理均降低了与碳、氮循环相关的微生物丰度,减弱了沼液内部有机质的分解和温室气体的产生。然而,随着覆盖厚度的增加,锯末材料沉降腐解增强,对碳、氮循环功能削弱效果逐渐降低,但是对气体逸出的吸附和阻碍作用仍然随着覆盖厚度的增加而增强,沼液产生的总CO_(2)当量也逐渐减小。综合各种温室效应贡献气体排放情况,不覆盖处理和锯末2、4、6 cm覆盖处理的单位体积沼液35 d产生的总CO_(2)当量分别为10.2、13.0、7.9、7.3 g CO_(2)e·L-1,因此,采用4 cm厚的锯末覆盖沼液是较为经济有效的覆盖方案。

干旱荒漠区植被在交通工程扰动影响下的时空分布特征——以疏勒河流域嘉安高速为例

交通工程建设对干旱荒漠区植被的扰动效应是一个值得重视的科学问题。本文选择位于河西走廊的疏勒河流域作为研究区,以嘉安高速公路沿线的植被为研究对象,采用遥感解译、GIS空间分析等方法,分析了植被覆盖度和地表覆盖的时空分布特征,识别了高速公路建设对植被的扰动效应,定量剖析了高速公路建设对植被的扰动范围,厘清了不同地表覆盖类型对公路建设扰动的响应特征。结果表明:(1)在2000~2019年间,疏勒河流域的荒漠区面积比例在逐年减少,植被覆盖度整体上为改善趋势。(2)研究区内的“耕地”、“草地”、“稀疏植被”、“湿地”和“不透水表面”面积均为增加趋势,而“裸地”的面积占比呈下降趋势,从2000年的83.97%下降2019年的77.55%。(3)高速公路的修建明显改变了沿线的植被景观格局,导致植被覆盖的差异化水平明显提高,植被覆盖度的最大值和最小值之差从公路建设前的0.013增加至0.033。(4)嘉安高速公路修建期间对植被的扰动范围在60 m之内,导致两侧植被呈现“分带”特征,且扰动作用的强度随“距公路距离”增加而减小,符合对数方程的关系。(5)在高速公路建设的扰动下,各地表覆盖类型的植被退化强度有差异,“不透水表面”、“耕地”、“草地”、“湿地”、“稀疏植被”和“裸地”的退化强度逐渐减弱,退化强度指数分别为-0.216、-0.127、-0.112、-0.112、-0.095和-0.007。本文的研究结果有助于更好地理解道路工程对植被的扰动效应,并可以为道路规划和评价相关的模型提供定量参考。

梅雨期持续性暴雨过程云—辐射—降水的关系

本文利用站点观测数据以及ERA5再分析资料分析了2006—2020年14次长江中下游地区梅雨期持续性暴雨的基本特征以及过程中云—辐射—降水的关系。结果表明,在梅雨期持续性暴雨过程中,降水呈纬向分布;云量分布随高度向南倾斜,中云分布与降水分布对应良好,高云分布在降水区南侧;降水发生时,梅雨锋北侧中低云增加,南侧高云增加,北侧中低云辐射降温以及南侧高云温室效应和暖平流共同作用造成梅雨锋两侧温差增大,锋面加强使得持续性暴雨得以维持。

水轮机顶盖螺栓预紧力的非线性超声检测研究

水轮机顶盖螺栓服役时承受复杂载荷的作用易发生安全事故,因此对顶盖螺栓的预紧力检测已成为保障水轮机安全运行的必备手段。针对目前尚缺少顶盖螺栓超声应力检测仿真、轴向应力分布对检测的影响等问题,引入有效应力系数并提出螺栓预紧力的非线性超声检测方法。即首先建立顶盖螺栓的应力超声检测有限元模型,通过静态分析得到螺栓的轴向应力分布特征及预紧力和夹持距离对分布特征的影响,从而得到有效应力系数的表达式;再通过不同预紧力下的超声波传播的仿真,标定有效应力系数;最后使用标定公式进行螺栓预紧力试验,测量结果误差在±4%以内,证明了该顶盖螺栓预紧力超声检测方法的可靠性。

COVID-19大流行对南昌市热岛效应的影响评估

COVID-19疫情对城市环境产生了显著而广泛的影响。以南昌市为研究对象,运用劈窗算法,利用多时相遥感数据反演城市地表温度,由此对疫情不同阶段不同土地利用类型的热岛效应的时空分布特征进行了分析,从而揭示了COVID-19疫情防控不同时期城市热环境变化的规律。结果表明,与疫情之前同时期的情况对比,在2次封控管理期间,城市热岛效应分别下降了57%和49.3%,且这种下降幅度随着距离城市中心的增加而减小。此外,不同土地覆盖类型的热岛效应变化幅度存在差异。水体、森林、荒地和农田的热岛效应下降幅度相对较小,而城镇区域的热岛效应下降幅度较大。这些发现对深入理解疫情防控的不同阶段城市热环境的时空变化提供了重要的实证研究支持,也为优化城市规划和管理策略,减轻城市热岛效应,并为未来类似的突发事件提供参考。

固定矫治器结合斜面导板联合矫治安氏Ⅱ类1分类错[牙合]的疗效

目的分析固定矫治器与斜面导板联合矫治安氏Ⅱ类1分类错[牙合]的疗效。方法选取2020年10月—2023年10月新沂市人民医院口腔科收治的99例安氏Ⅱ类1分类错[牙合]患者作为研究对象,根据不同矫治方法分为两组,对照组(n=45,固定矫治器)、观察组(n=54,固定矫治器结合斜面导板)。比较两组患者矫治情况(牙齿排列、后牙边缘嵴高度、牙根远近中倾斜度)、模型测量值(覆合、覆盖)、临床疗效。结果治疗前,两组矫治情况各项评分、模型测量值对比,差异无统计学意义(P均>0.05)。治疗后,两组牙齿排列、后牙边缘嵴高度、牙根远近中倾斜度评分及覆合、覆盖值均低于治疗前,且观察组牙齿排列、后牙边缘嵴高度及牙根远近中倾斜度评分均低于对照组,差异有统计学意义(P均<0.05)。治疗后,组间模型测量对比,观察组覆盖值低于对照组,差异有统计学意义(P<0.05)。观察组治疗有效率(98.15%)(53/54)高于对照组(86.67%)(39/45),差异有统计学意义(χ^(2)=4.924,P<0.05)。结论安氏Ⅱ类1分类错[牙合]患者矫治中选择固定矫治器联合斜面导板,矫治效果更佳,覆盖关系有所改善的同时,临床疗效更加显著。

昆仑山北坡区域积雪时空变化特征

积雪是水循环的重要组成部分,积雪的积累消融对下游社会经济发展具有重要影响。采用趋势分析、相关性分析等方法分析2000—2020年昆仑山北坡积雪面积、积雪日数(SCD)在空间和时间上的分布特征和变化趋势,并分析积雪的海拔效应及气候对积雪的影响。结果表明:(1)2000—2020年昆仑山北坡积雪面积呈减少趋势(-152.4 km^(2)·a^(-1)),2010年以前积雪面积距平偏正,2010年后偏负。(2)月尺度上,积雪覆盖率(SCF)从8月到翌年7月呈先增后减的趋势,冬、春季高于夏、秋季。(3)SCD分布具有明显的空间异质性,中部地区SCD的变化影响该地的年总SCD。(4)2000—2020年的年均SCD随海拔升高而增加,海拔>6.0 km为331.6 d,说明高海拔地区存在常年性积雪。(5)气温与积雪面积呈显著负相关(相关系数为-0.68,P<0.01),降水与积雪面积呈不显著正相关(相关系数为0.14,P>0.05),气温对积雪的影响高于降水。

工程物探方法探测覆盖层的工程地质效果分析

研究了采用工程物探方法探测覆盖层的工程地质效果分析,在掌握覆盖层工程地质特点和常用探测方法的基础上,介绍了高密度电阻率法、浅层地震反射波法、地质雷达法等典型工程物探方法的技术特点和实施要点,并通过理论分析和实验论证研究不同物探方法的应用效果。

镀金盖板激光打标工艺研究

镀金盖板广泛应用于集成电路的气密性陶瓷封装中,其表面标识通常采用油墨移印工艺与激光打标工艺。油墨移印的标识在筛选或考核过程中时常发生字符脱落异常。激光打标工艺虽然可从根本上避免字符脱落异常,但目前字符可识别度略差于油墨移印工艺。本文对镀金盖板的激光打标参数进行研究,明确了镀金盖板最优的打标参数,改善了激光打标盖板存在的字符不清问题。对镀金盖板的激光标识区域进行电镜扫描和切片分析,结果表明标识区域镀金层厚度基本没有变化。使用优化后的参数制备的激光打标样品,顺利通过了按GJB548C要求进行的温度循环、热冲击、耐溶剂和盐雾等可靠性试验,在业内具有一定指导意义。

工地扬尘管控措施效果量化研究

随着城市规划建设,大规模建筑工程在地基开挖、主体建设、外墙装修过程中,会产生以粗颗粒物(PM_(10))为代表的众多大气污染物。为尽量减少建筑工地扬尘产生PM_(10),相关部门要求建筑工地采取裸土覆盖、立体喷淋、围挡隔离等抑尘措施。基于现场抑尘措施控制试验和高精度数值风洞试验对各措施的抑尘效果进行逐一探究。结果表明:只开围挡喷淋时PM_(10)浓度下降5.1%,只开施工喷淋时浓度下降12.3%,二者全开时浓度下降11.4%。风速较大时,裸土覆盖的抑尘效果比小风天气显著,在三级风(大于2 m/s)下裸土覆盖的PM_(10)浓度均值相比裸土不覆盖时平均下降10.7%。裸土喷淋后的PM_(10)浓度比不喷淋时下降21.3%。整体上基坑阶段在围挡2、3、4和5 m时的扬尘削减率分别为3.6%、10.5%、18.4%和29.0%。在主体阶段,随着排放源的升高,扬尘扩散的影响距离逐渐降低。当源高10 m时,最大影响距离为工地外75 m;当源高30 m时,最大影响距离为工地外50 m;当源高50和90 m时,刚出工地的扬尘逸散率便在10%以内,即对工地外的影响可以忽略。

细粗粒覆盖层对膨胀土边坡防渗效果数值研究

为了研究由一层细粒土层下覆一层粗粒土层组成的毛细阻滞护坡结构对膨胀土边坡防渗效果的影响,采用初应变法将膨胀土中湿度应力以类似温度应力场的形式施加到土体上,通过数值软件实现对膨胀土边坡吸湿膨胀的数值模拟,将等效塑性应变完全贯通作为边坡稳定性的判别准则。数值模拟结果表明:毛细阻滞护坡结构层形成强透水层,能有效防止降雨入渗,达到较好的护坡效果;0.5 m厚细粒土层+0.2 m厚粗粒土层组成的毛细阻滞结构护坡效果与1.5 m水泥改性土护坡结构相当。毛细阻滞生态护坡结构对膨胀土边坡有较好的护坡效果。研究成果可以为相关膨胀土边坡防护提供理论和设计依据。

洗煤厂皮带运输机抑尘罩的设计及应用

在煤炭加工领域,洗煤厂皮带运输机作为主要的煤炭输送设备,其运行过程中产生的粉尘对环境和工人健康构成潜在威胁。传统的抑尘罩存在防尘效果不佳和维护难度大等问题,因此有必要进行抑尘罩的设计和应用方面的深入研究。本篇文章旨在通过提出一种抑尘罩方案,优化现有抑尘措施,提高洗煤厂皮带运输机的抑尘效果,减少对环境的影响,提升生产设备的运行效率。

城市“热岛效应”遥感监测研究——以珠海市为例

为完成珠海市热岛效应与土地覆被相关性分析,利用多期Landsat遥感影像,基于单通道算法反演地表温度,基于指数法完成地表覆被类型提取分类,引入分布指数构建热岛分布指数P,分析珠海市热岛效应的分布与变化规律,实现地表覆被与热岛效应的空间关系相关性分析。研究结果表明:珠海市热岛效应强度2013—2021年间呈持续上升趋势,与城市建设用地增长趋势一致,与城市发展实际基本相符。