嵌入式Linux移植技术在地磁观测仪器中的应用研究     

张旸  滕云田  王喜珍  朱荣  吴琼 《地震地磁观测与研究》2007,28(4):44-48

结合地磁观测系统的特点,研究了嵌入式Linux系统的裁剪和移植技术,实现了地磁观测系统中嵌入式Linux的应用开发.采用本文技术开发的系统,既可以通过以太网对仪器系统实时远程监控,满足对地磁观测系统的实时性和网络控制要求,又具有良好的可扩展性,对其他观测系统具有一定的借鉴意义.  相似文献   

黄河流域城市化与生态系统服务价值协调性及障碍因素研究   总被引：1，自引：0，他引：1       下载免费PDF全文

张凯莉  冯荣荣  刘潭  张志成  韩佳宁  刘康 《干旱区地理》2022,45(4):1254-1267

关注生态系统服务价值(Ecosystem service value,ESV)与城市化耦合协调互动关系,对黄河流域高质量发展大有裨益。文章运用熵权法、耦合协调模型、空间自相关模型,障碍度模型分析了城市化与ESV的耦合协调关系及主导障碍因素。结果表明:(1)1995—2018年,黄河流域ESV发生了很大的改善,整体增加了33.05×10⁹元,且以调节服务为主导,草地、林地、耕地服务价值对总ESV贡献率较高。单位面积生态系统服务价值(PE)呈现南高北低、中游高上下游低的空间格局。(2)PE与城市化耦合协调度(Coupling coordination degree,CCD)逐渐改善,轻度耦合协调增加了27.12%,严重失调类型减少了45.46%,耦合亚型从城市化滞后型转变为ESV滞后型;从空间上看,CCD呈现南高北低、中游优于上游和下游的空间格局,协调度具有显著的空间正相关性,存在明显的高-高和低-低集聚特征,高-高集聚区主要分布在ESV高且城市化水平相对较高的中游和下游地区,低-低集聚区主要分布在ESV较低的上游地区。(3)1995—2018年主导障碍因素未发生明显...  相似文献   

Carbon neutrality and mitigating contribution of terrestrial carbon sink on anthropogenic climate warming in China,the United States,Russia and Canada     

CUI Yaoping  LI Nan  FU Yiming  CHEN Liangyu 《地理学报(英文版)》2021,31(7):925-937

Carbon dioxide(CO_2) is a major climate forcing factor, closely related to human activities. Quantifying the contribution of CO_2 emissions to the global radiative forcing(RF) is therefore important to evaluate climate effects caused by anthropogenic and natural factors. China, the United States(USA), Russia and Canada are the largest countries by land area, at different levels of socio-economic development. In this study, we used data from the CarbonTracker CO_2 assimilation model(CT2017 data set) to analyze anthropogenic CO_2 emissions and terrestrial ecosystem carbon sinks from 2000 to 2016. We derived net RF contributions and showed that anthropogenic CO_2 emissions had increased significantly from 2000 to 2016, at a rate of 0.125 PgC yr~(-1). Over the same period, carbon uptake by terrestrial ecosystems increased at a rate of 0.003 PgC yr~(-1). Anthropogenic CO_2 emissions in China and USA accounted for 87.19% of the total, while Russian terrestrial ecosystems were the largest carbon sink and absorbed 14.69 PgC. The resulting cooling effect was-0.013 W m~(-2) in 2016, representing an offset of-45.06% on climate warming induced by anthropogenic CO_2. This indicates that net climate warming would be significantly overestimated if terrestrial ecosystems were not included in RF budget analyses. In terms of cumulative effects, we analyzed RFs using reference atmospheres of 1750, at the start of the Industrial Revolution, and 2000, the initial year of this study. Anthropogenic CO_2 emissions in the study area contributed by + 0.42 W m~(-2) and +0.32 W m~(-2) to the global RF, relative to CO_2 levels of 1750 and 2000, respectively. We also evaluated correlations between global mean atmospheric temperature and net, anthropogenic and natural RFs. We found that the combined(net) RF caused by CO_2 emissions accounted for 30.3% of global mean temperature variations in 2000–2016.  相似文献   

基于逐点前进法的点云数据精简     

何宽  孙瑞  官云兰  曾晨曦 《测绘通报》2022,(9):167-169

本文在道格拉斯-普克法的基础上提出利用逐点前进法对点云数据进行精简,以兔子的模型为对象进行试验研究。结果表明,逐点前进法对点云数据精简在速度和精简率上与道格拉斯-普克法相比有明显提高。  相似文献   

中国森林生态系统植被碳储量时空动态变化研究   总被引：25，自引：0，他引：25  

徐新良  曹明奎  李克让 《地理科学进展》2007,26(6):1-16

森林是陆地生态系统的主体, 在全球碳循环中起着十分重要的作用。本文利用20 世纪70 年代以来的六次森林清查资料, 结合森林生物量实测数据, 采用分树种、分龄组的生物量—蓄积 拟合关系, 估算了中国20 世纪70 年代以来森林植被碳储量的动态变化。结果表明: 我国六次森 林资源清查中森林的植被总碳储量分别为3.8488PgC、3.6960PgC、3.759PgC、4.1138PgC、 4.6563PgC 和5.5064PgC, 虽然存在一定的波动现象, 但总体增长趋势明显, 尤其是80 年代以来, 植被碳储量净增加1.8104PgC, 平均每年以0.0823PgC 的速率增加, 这表明80 年代以来我国森林 植被一直起着明显的CO₂ 汇的作用。从碳密度的变化看, 70 年代以来我国森林植被平均碳密度 增长了3.001Mgha ^-1, 其中幼龄林与中龄林碳密度分别增长5.2871Mgha ^-1 和0.6022 Mgha ^{-1<,sup>, 而成 熟林碳密度却降低了0.7581Mgha -1, 可见中国森林植被的碳汇功能主要来自于人工林的贡献, 而 且随着幼龄林、中龄林碳储量和碳密度的增长, 中国森林植被的碳汇功能将进一步增强。我国森 林植被碳储量和碳密度空间差异显著, 森林植被碳库主要集中于东北和西南地区, 平均碳密度以 西南、东北以及西北地区为大, 中国森林植被碳储量和碳密度的这种空间分布规律与人类活动对 森林的干扰强度密切相关。}  相似文献   

珠江口水域浮游生态系统中磷的循环及其效应评估   总被引：1，自引：0，他引：1       下载免费PDF全文

刘胜  李涛  王桂芬  曹文熙  宋星宇  张建林  尹建强  黄良民 《热带海洋学报》2010,29(1):42-45

根据现场调查和室内试验工作, 计算珠江口水域浮游植物有效光合作用水体体积, 同时研究浮游动物摄食行为对磷再生的补偿作用, 进而对该水域磷的生物利用状况进行初步评估。分析珠江口2002—2003年的数据发现, 珠江口水域浮游植物有效进行光合作用水体的体积存在季节性变化, 枯水期约为9.7×104m3, 而丰水期约为6.6×104m3。该水域总初级生产量在枯水期约为36kg.d-1, 在丰水期约为31kg.d-1, 呈现枯水期大于丰水期的特点。浮游动物的摄食作用可促进水体中磷的再生, 这部分磷可满足浮游植物生长对磷需求的1.5%—15.6%, 并呈现丰水期大于枯水期的特点。浮游动物摄食作用直接释放的量远大于其自身生理周转释放的量。  相似文献   

Vertical transferring process of rare elements in coral reef lagoons of Nansha Islands, South China Sea     

Jinming Song  Pengcheng Li 《中国科学D辑(英文版)》1998,41(1):42-48

The vertical fluxes and vertical transferring forms of 18 rare elements were studied for the first time in the coral reef ecosystem of Nansha Islands, South China Sea, by deploying sediment traps. The results showed that the vertical transferring flux of most of the measured rare elements in Yongshu lagoon were higher than that in Zhubi lagoon. The vertical transferring forms of rare elements were mainly in the carbonate form, but Ta, As, Th mainly in the ion-exchange form, Ag in iron-manganese oxide form and Sb in the organic matter+sulphide form. None of the 18 rare elements was transferred mainly in the form of detritus silicate to sea floor. This proved that rare elements originating from the earth’s crust were redistributed in sinking particulates after they were brought into ocean. The relation between the fluxes and surface seawater temperature (STT) was also studied. The sensitivity of rare elements to SST was in order:Rb>V>As>Ti>U>Zn>Sb>Hf>Ag>Cs. Project supported by the National Natural Science Foundation of China (Grant No. 49576291).  相似文献   

近地层臭氧对我国树木生产力和作物产量的影响:进展与展望          下载免费PDF全文

冯兆忠  尚博  徐彦森 《大气科学学报》2022,45(3):376-386

大气污染严重威胁了我国陆地生态系统的固碳能力,但随着减污降碳协同治理的快速推进,减缓大气污染将有利于提升陆地碳汇,并切实推动碳达峰碳中和目标的实现。为了更好地理解大气污染与生态系统固碳的关系,本文以主要空气污染物臭氧（O₃）为例,基于田间控制实验的整合分析、剂量响应关系及机理模型三种评估方法综述了近地层O₃污染对植被碳固定影响的最新进展。尽管不同作物种类以及品种、不同功能型木本植物对O₃的响应有着显著的差异,且各种方法的评估结果也不尽相同,但目前O₃浓度造成我国粮食作物减产、森林生产力降低已是不争的事实。持续升高的O₃浓度将严重威胁我国陆地生态系统的固碳能力。利用我国作物和树木的O₃剂量响应方程进行评估的结果表明,在CO₂减排和O₃污染协同治理下,预计2060年我国树木生物量和作物产量将比当前显著提高,增加陆地生态系统碳汇,助力碳中和目标。最后,对如何提高O₃污染环境下植物固碳能力也进行了展望。  相似文献   

Global rainbow distribution under current and future climates     

《Global Environmental Change》2022

Rainbows contribute to human wellbeing by providing an inspiring connection to nature. Because the rainbow is an atmospheric optical phenomenon that results from the refraction of sunlight by rainwater droplets, changes in precipitation and cloud cover due to anthropogenic climate forcing will alter rainbow distribution. Yet, we lack a basic understanding of the current spatial distribution of rainbows and how climate change might alter this pattern. To assess how climate change might affect rainbow viewing opportunities, we developed a global database of crowd-sourced photographed rainbows, trained an empirical model of rainbow occurrence, and applied this model to present-day climate and three future climate scenarios. Results suggest that the average terrestrial location on Earth currently has 117 ± 71 days per year with conditions suitable for rainbows. By 2100, climate change is likely to generate a 4.0–4.9 % net increase in mean global annual rainbow-days (i.e., days with at least one rainbow), with the greatest change under the highest emission scenario. Around 21–34 % of land areas will lose rainbow-days and 66–79 % will gain rainbow-days, with rainbow gain hotspots mainly in high-latitude and high-elevation regions with smaller human populations. Our research demonstrates that alterations to non-tangible environmental attributes due to climate change could be significant and are worthy of consideration and mitigation.  相似文献   

Evaluation of actual evapotranspiration measured by large-scale weighing lysimeters in a humid alpine meadow,northeastern Qinghai-Tibetan Plateau     

Licong Dai  Ruiyu Fu  Xiaowei Guo  Xun Ke  Yangong Du  Fawei Zhang  Yikang Li  Dawen Qian  Huakun Zhou  Guangmin Cao 《水文研究》2021,35(4):e14051

The accurate estimation of evapotranspiration (ET) is essential for assessing water availability and requirements of regional-scale terrestrial ecosystems, and for understanding the hydrological cycle in alpine ecosystems. In this study, two large-scale weighing lysimeters were employed to estimate the magnitude and dynamics of actual evapotranspiration in a humid alpine Kobresia meadow from January 2018 to December 2019 on the northeastern Qinghai-Tibetan Plateau (QTP). The results showed that daily ET_a averaged 2.24 ± 0.10 mm day ⁻¹ throughout the study period, with values of 3.89 ± 0.14 and 0.81 ± 0.06 mm day⁻¹ during the growing season and non-growing season, respectively. The cumulative ET_a during the study period was 937.39 mm, exceeding precipitation (684.20 mm) received at the site during the same period by 37%, suggesting that almost all precipitation in the lysimeters was returned to the atmosphere by evapotranspiration. Furthermore, the cumulative ET_a (805.04 mm) was almost equal to the maximum potential evapotranspiration estimated by the FAO-56 reference evapotranspiration (ET₀) (801.94 mm) during the growing season, but the cumulative ET_a (132.25 mm) was 113.72% less than the minimum equilibrium ET_eq) (282.86 mm) during the non-growing season due to the limited surface moisture in frozen soil. The crop coefficient (K_c) also showed a distinct seasonal pattern, with a monthly average of 1.01 during the growing season. Structural equation model (SEM) and boosted regression tree (BRT) show that net radiation and air temperature were the most important factors affecting daily ET_a during the whole study period and growing season, but that non-growing season ET_a was dominated by soil water content and net radiation. The daily K_c was dominated by net radiation. Furthermore, both ET_a and K_c were also affected by aboveground biomass.  相似文献