Wind farms increase land surface temperature and reduce vegetation productivity in the Inner Mongolia

Wind power has been developing rapidly as a key measure to mitigate human-driven global warming.The under-standing of the development and impacts of wind farms on local climate and vegetation is of great importance for their rational use but is still limited.In this study,we combined remote sensing and on-site investigations to identify wind farm locations in Inner Mongolia and performed landscape pattern analyses using Fragstats.We explored the impacts of wind farms on land surface temperature(LST)and vegetation net primary productivity(NPP)between 1990 and 2020 by contrasting these metrics in wind farms with those in non-wind farm areas.The results showed that the area of wind farms increased rapidly from 1.2 km2 in 1990 to 10,755 km2 in 2020.Spatially,wind farms are mainly clustered in three aggregation areas in the center.Further,wind farms increased nighttime LST,with a mean value of 0.23℃,but had minor impacts on the daytime LST.Moreover,wind farms caused a decline in NPP,especially over forest areas,with an average reduction of 12.37 GC/m^(2).Given the impact of wind farms on LST and NPP,we suggest that the development of wind farms should fully consider their direct and potential impacts.This study provides scientific guidance on the spatial pattern of future wind farms.

Research of the Conductive Structure of Crust and the Upper Mantle beneath the South-Central Tibetan Plateau

With the super-wide band magnetoteiluric sounding data of the JUong （吉隆）-Cuoqin （措勤） profile （named line 800） which was completed in 2001 and the Dingri （定日）-Cuomai （措迈） profile （named line 900） which was completed in 2004, we obtained the strike direction of each MT station by strike analysis, then traced profiles that were perpendicular to the main strike direction, and finally obtained the resistivity model of each profile by nonlinear conjugate gradients （NLCG） inversion. With these two models, we described the resistivity structure features of the crust and the upper mantle of the center-southern Tibetan plateau and its relationship with Yalung Tsangpo suture： the upper crust of the research area is a resistive layer with resistivity value range of 200-3 000 Ω.m. The depth of its bottom surface is about 15-20 km generally, but the bottom surface of resistive layer is deeper in the middle of these two profiles. At llne 900, it is about 30 km deep, and even at line 800, it is about 38 km deep. There is a gradient belt of resistivity at the depth of 15-45 km, and a conductive layer is beneath it with resistivity even less than 5 Ω.m. This conductive layer is composed of individual conductive bodies, and at the south of the Yalung Tsangpo suture, the conductive bodies are smaller with thickness about 10 km and lean to the north slightly. However, at the north of the Yalung Tsangpo suture, the conductive bodies are larger with thickness about 30 km and also lean to the north slightly. Relatively, the conductive bodies of line 900 are thinner than those of line 800, and the depth of the bottom surface of line 900 is also shallower. At last, after analyzing the effect factors to the resistivity of rocks, it was concluded that the very conductive layer was caused by partial melt or connective water in rocks. It suggests that the middle and lower crust of the center-southern Tibetan plateau is very thick, hot, flabby, and waxy.

Assessment of land degradation in Inner Mongolia between 2000 and 2020 based on remote sensing data

Achieving land degradation neutrality(LDN)worldwide is a significant target of the Sustainable Development Goal(SDG15.3).Inner Mongolia,as a typical dryland region in northern China,has carried out several large-scale ecological restoration programs to combat land degradation.However,there is a lack of comprehensive assess-ment of its land degradation situation after ecological programs implementation,which is of great significance to supporting SDG15.3 in China.This study analyzed the land degradation situation using the improved SDG15.3.1 calculation framework based on fine resolution data in Inner Mongolia from 2000 to 2020,and finally compre-hensively evaluated the land status of the whole region and those subject to ecological programs.The results show that net land restoration proportion of various ecological project regions and whole region continues to increase.The scope of the Grain for Green Program(GGP)had the largest proportion of net land restoration while the Natural Reserve Program(NRP)had the lowest proportion from 2000 to 2020.The net land restoration area of Inner Mongolia during 2000-2010 and 2010-2020 was 35,800 km 2 and 65,300 km 2,respectively.Overall,Inner Mongolia has achieved statistically zero growth in land degradation under the governance of ecological restora-tion programs.Therefore,reasonable planning,well monitoring,and timely assessment of ecological restoration programs are crucial to support SDG15.3.

Heat Budget of the South-Central Equatorial Pacific in CMIP3 Models

ABSTRACT Using data from 17 coupled models and nine sets of corresponding Atmospheric Model Intercomparison Project （AMIP） results, we investigated annual and seasonal variation biases in the upper 50 m of the south-central equatorial Pacific, with a focus on the double-ITCZ bias, and examined the causes for the amplitude biases by using heat budget analysis. The results showed that, in the research region, most of the models simulate SSTs that are higher than or similar to observed. The simulated seasonal phase is close to that observed, but the amplitudes of more than half of the model results are larger than or equal to observations. Heat budget analysis demonstrated that strong shortwave radiation in individual atmospheric models is the main factor that leads to high SST values and that weak southward cold advection is an important mechanism for maintaining a high SST. For seasonal circulation, large surface shortwave radiation amplitudes cause large SST amplitudes.

Exploratory Potential for Gold Placer Deposits in the Coastal Range, BioBío Region, South-Central Chile

Many gold placers located in the Coastal Range of south-central Chile have been exploited commercially during the past decades;nevertheless and until now, there are not any exploration studies of these placers and their basement. In order to provide an overview of exploratory potential, the stream sediments that are part of several gold placers in the northwest area of the BioBío region are analyzed, which have been registered on the basis of empirical evidence from artisanal mining activities. The overview consists of two goals: 1) determine the presence of auriferous occurrences (stream sediments and basement) and 2) identify potentially favorable areas to find gold placer deposits. Through optical microscopy this study characterized the metallic and non-metallic mineralogy of the basement, along with geochemical analyses of stream sediments and surrounding rocks of the placer deposits. The geochemical results show two sectors with high precious metal contents in sediments (up to 24 ppm of Au and 8 ppm of Ag) and two rocky outcrops with Au (757 and 41 ppb). Additionally, there are depressions in the study area that have received large amounts of sediments (reaching up to 170 m-thick), which are favorable places for the accumulation of auriferous sediments from nearby valleys due to the tectonic and structural conditions where they are located. Then, these results show an exploratory potential for gold placers and can be useful to delineate future exploration strategies in the Coastal Range of south-central Chile.

Mineralogy of a Radioactive-Rare Earth Elements Occurrence in the Paleozoic Batholith, South-Central Chile

South-central Chile has some potential mineral resources including radioactive and rare earth elements (REE) minerals. This study reports some basic characteristics of the mineralogy of a radioactive-rare earth elements occurrence, related to a pegmatitic outcrop “Vertientes Pegmatite” hosted on Paleozoic granitic rocks of the South Coastal Batholith and discusses potential areas for REE deposits, particularly beach placers along the coastline of the BioBío region. In this pegmatite, X-ray diffraction analysis shows uranium-bearing minerals such as coffinite and metaschoepite, along with microcline, anorthoclase, albite, quartz and illite. Through optical microscopy and electron probe micro-analyzer (EPMA), rare earth minerals (monazite and xenotime) and radioactive minerals (thorite and thorium silicate ± uranium) were identified. Additionally, granitic rocks of the South Coastal Batholith around this pegmatite show rare earth minerals (monazite and allanite).

Enhanced soil moisture improves vegetation growth in an arid grassland of Inner Mongolia Autonomous Region, China

Climate change impacts on grasslands that cover a quarter of the global land area, have become unprecedented during the 21~(st) century. One of the important ecological realms, arid grasslands of northern China, which occupy more than 70% of the region's land area. However, the impact of climate change on vegetation growth in these arid grasslands is not consistent and lacks corresponding quantitative research. In this study, NDVI(normalized difference vegetation index) and climate factors including temperature, precipitation, solar radiation, soil moisture, and meteorological drought were analyzed to explore the determinants of changes in grassland greenness in Inner Mongolia Autonomous Region(northern China) during 1982–2016. The results showed that grasslands in Inner Mongolia witnessed an obvious trend of seasonal greening during the study period. Two prominent climatic factors,precipitation and soil moisture accounted for approximately 33% and 27% of grassland NDVI trends in the region based on multiple linear regression and boosted regression tree methods. This finding highlights the impact of water constraints to vegetation growth in Inner Mongolia's grasslands. The dominant role of precipitation in regulating grassland NDVI trends in Inner Mongolia significantly weakened from 1982 to 1996, and the role of soil moisture strengthened after 1996. Our findings emphasize the enhanced importance of soil moisture in driving vegetation growth in arid grasslands of Inner Mongolia, which should be thoroughly investigated in the future.

Unintentional Carbon Monoxide Poisoning Outbreak from 2 to 9 October 2019 in Ulaanbaatar, Mongolia

Carbon monoxide poisoning (COP) from 2 to 9 October 2019 was a major public health concern in Ulaanbaatar, Mongolia, after a transition from consumption of raw coal to upgraded briquette fuel. During the period, a total of 186 residents, which is 16 times more than the previous years, were exposed to COP and 6 persons died at home. We conduct a cross-sectional study by using registration data and medical history of all hospitalized patients with a diagnosis of COP from 2 to 9 October 2019 and had an in-depth interview. 144 (77.4%) people from 85 households registered as potential cases and 124 (86.1%) people were diagnosed with COP. All households used upgraded briquettes, and 41 households (48.2%) used them for the first time. In 50% of cases, the stove was broken, the chimney was short, not heated, and the clay joint connecting the wall stove was broken. The majority of interviewees were unaware of COP and improperly used briquettes, and the safety of chimneys and stoves was insufficient which caused unintentional COP. It is necessary to provide information to the local population about the potential risks of COP, install CO alarms in households, and educate the population. In further, a well-established poisoning surveillance system is an important aspect of public health emergency preparedness in Mongolia.

Responses of vegetation yield to precipitation and reference evapotranspiration in a desert steppe in Inner Mongolia,China

Drought,which restricts the sustainable development of agriculture,ecological health,and social economy,is affected by a variety of factors.It is widely accepted that a single variable cannot fully reflect the characteristics of drought events.Studying precipitation,reference evapotranspiration(ET_(0)),and vegetation yield can derive information to help conserve water resources in grassland ecosystems in arid and semi-arid regions.In this study,the interactions of precipitation,ET_(0),and vegetation yield in Darhan Muminggan Joint Banner(DMJB),a desert steppe in Inner Mongolia Autonomous Region,China were explored using two-dimensional(2D)and three-dimensional(3D)joint distribution models.Three types of Copula functions were applied to quantitatively analyze the joint distribution probability of different combinations of precipitation,ET_(0),and vegetation yield.For the precipitation–ET_(0)dry–wet type,the 2D joint distribution probability with precipitation≤245.69 mm/a or ET_(0)≥959.20 mm/a in DMJB was approximately 0.60,while the joint distribution probability with precipitation≤245.69 mm/a and ET_(0)≥959.20 mm/a was approximately 0.20.Correspondingly,the joint return period that at least one of the two events(precipitation was dry or ET_(0)was wet)occurred was 2 a,and the co-occurrence return period that both events(precipitation was dry and ET_(0)was wet)occurred was 5 a.Under this condition,the interval between dry and wet events would be short,the water supply and demand were unbalanced,and the water demand of vegetation would not be met.In addition,when precipitation remained stable and ET_(0)increased,the 3D joint distribution probability that vegetation yield would decrease due to water shortage in the precipitation–ET_(0)dry–wet years could reach up to 0.60–0.70.In future work,irrigation activities and water allocation criteria need to be implemented to increase vegetation yield and the safety of water resources in the desert steppe of Inner Mongolia.

Spatial changes and driving factors of lake water quality in Inner Mongolia, China

Lakes play important roles in sustaining the ecosystem and economic development in Inner Mongolia Autonomous Region of China,but the spatial patterns and driving mechanisms of water quality in lakes so far remain unclear.This study aimed to identify the spatial changes in water quality and the driving factors of seven lakes(Juyanhai Lake,Ulansuhai Lake,Hongjiannao Lake,Daihai Lake,Chagannaoer Lake,Hulun Lake,and Wulannuoer Lake)across the longitudinal axis(from the west to the east)of Inner Mongolia.Large-scale research was conducted using the comprehensive trophic level index(TLI(Σ)),multivariate statistics,and spatial analysis methods.The results showed that most lakes in Inner Mongolia were weakly alkaline.Total dissolved solids and salinity of lake water showed obvious zonation characteristics.Nitrogen and phosphorus were identified as the main pollutants in lakes,with high average concentrations of total nitrogen and total phosphorus being of 4.05 and 0.21 mg/L,respectively.The values of TLI(Σ)ranged from 49.14 to 71.77,indicating varying degrees of lake eutrophication,and phosphorus was the main driver of lake eutrophication.The lakes of Inner Mongolia could be categorized into lakes to the west of Daihai Lake and lakes to the east of Daihai Lake in terms of salinity and TLI(Σ).The salinity levels of lakes to the west of Daihai Lake exceeded those of lakes to the east of Daihai Lake,whereas the opposite trend was observed for lake trophic level.The intensity and mode of anthropogenic activities were the driving factors of the spatial patterns of lake water quality.It is recommended to control the impact of anthropogenic activities on the water quality of lakes in Inner Mongolia to improve lake ecological environment.These findings provide a more thorough understanding of the driving mechanism of the spatial patterns of water quality in lakes of Inner Mongolia,which can be used to develop strategies for lake ecosystem protection and water resources management in this region.

An Analysis of the Current State of Civil Society Participation in Ensuring the National Security of Mongolia

In this article, the researchers tried to evaluate the contribution of civil society to Mongolian democracy and the problems faced by civil society. In addition, the article aimed to determine the unique national criteria of Mongolian democracy and the need to create an organization to monitor the process of democracy. The process of identifying important documents and ideals for the development of Mongolian civil society today is still in its early stages. It can be said that the approval of the democratic constitution and the first free and fair parliamentary elections as a country that has newly and restored democracy became another impetus for the creation of a new type of citizen organization. It is characterized by trying to study the changes that have occurred since this historical period at the intersection of political science and security studies. One of the most important issues today is to find out how many non-governmental and civil society organizations exist in Mongolia today, which are Western-oriented, focused on specific issues, have their own position and opinion, are specialized, and are capable of influencing government policy. On the other hand, in this article, we emphasize whether non-governmental and civil society organizations, which aim to hold the government accountable, and carry out influence and control activities, are fully developed.

内蒙古自治区就业质量有效性评估指标体系设计及运用

就业率和失业率一直都是研究就业的主要内容,它们可以作为研究就业现状的指标,但更应该关注就业质量问题。新常态下,供给侧结构性改革引发了劳动力供需不匹配、结构性就业矛盾等问题,即劳动力供需不匹配与就业质量水平较低。在此背景下,内蒙古自治区提升就业质量的重要性日益凸显。

不同草原防火政策下内蒙古草原火灾发生风险及其驱动因素的研究

草原火灾是草原生态系统中重要的干扰因子之一,不同时期的草原防火政策可能会导致草原火灾发生概率及驱动因素发生变化。本研究基于内蒙古1981~2020年草原火灾数据,以新旧《草原防火条例》实施时间(旧《草原防火条例》1993年10月5日颁布并实施,新《草原防火条例》2008年11月19日颁布并于2009年1月1日起实施)为界线,通过随机森林模型分4个时期(1981~2020年、1981~1993年、1994~2008年、2009~2020年)对内蒙古草原火灾发生概率与驱动因素进行比较与分析,并绘制草原火灾风险等级区划图。结果表明:(1)4个时期建模的全样本AUC在0.930~0.940之间,精度优异。(2)在不同时期,气象因素(日平均相对湿度、气温日较差等)始终是影响草原火灾的主导因素,海拔、距火点最近公路距离等因素也是内蒙古草原火灾发生的重要驱动因素;(3)1981~1993年和1981~2020年草原火灾风险区基本相似,中、高、极高草原火灾风险区主要集中在呼伦贝尔市大部分地区和兴安盟北部,1994~2008年中、高、极高草原火灾风险区主要集中在呼伦贝尔市,而2009~2020年中、高、极高草原火灾风险区主要集中在呼伦贝尔市西部、锡林郭勒盟北部、阿拉善盟东南部、乌海市和鄂尔多斯市东部。

中蒙农牧业跨境供应链协作理论框架及实现路径

中蒙农畜产品跨境贸易是中蒙跨境贸易的重要组成部分,须以中蒙农牧业跨境供应链为载体,通过供应链上各参与主体的充分协作,提高中蒙农畜产品跨境贸易的效率和质量。结合供应链协作理论以及中蒙农畜产品跨境贸易的特点,围绕中蒙农牧业跨境供应链协作目标、基础条件、协作机制以及协作模式,构建中蒙农牧业跨境供应链协作三角形理论分析框架。中蒙农牧业跨境供应链协作基础条件是两国农牧业跨境供应链协作的前提,协作机制解决两国农牧业跨境供应链协作的内在作用机理,协作模式解决两国农牧业跨境供应链如何协作,三者共同服务于协作目标,形成相互制约、相互影响、互促共融的完整理论框架。目前,中蒙农牧业跨境供应链协作存在着跨境贸易供需不足、渠道单一、政策障碍、市场主体运营不规范、信息不对称和融资障碍以及流通网络不健全等问题。中蒙农牧业跨境供应链协作要适度扩大农畜产品贸易的种类和规模,重视边民互市贸易,扩大边民互市贸易规模,加大草原保护及养殖技术创新力度、提高优质畜产品供给能力,加强农畜产品跨境电商合作、积极满足中蒙俄畜产品跨境贸易,优化贸易政策,制定统一的农畜产品标准和认证机制,重视品牌化战略、实现中蒙农牧业跨境供应链的价值提升,完善中蒙农牧业跨境物流通道和物流网络以及培育大型物流服务企业,构建中蒙农牧业跨境供应链信息平台等。

瑞利波相速度和椭圆率与远震P波联合反演蒙古中南部地壳高分辨率S波速度结构

利用蒙古中南部台阵记录的连续背景噪声数据、天然地震面波数据和远震P波波形数据,开展瑞利波相速度、椭圆率和远震P波叠加波形的联合反演,建立了蒙古中南部地壳三维S波速度模型.结果显示,蒙古中南部的瑞利波相速度及椭圆率、沉积基底深度、莫霍面深度、地壳S波速度在蒙古—鄂霍茨克缝合线和蒙古主构造线南北两侧分布均有明显差异,暗示了这两条缝合线至少为地壳级别的分界.中戈壁火山和Bus-Obo火山在地壳内相互连通,在下地壳存在大面积低速层.我们推测杭盖穹隆上地幔热物质上涌在中戈壁带地壳底部形成岩浆囊,为这两座板内火山活动提供了岩浆来源.

内蒙古智慧农业高质量发展机遇与对策

智慧农业已成为现代农业最重要的发展方向之一,是以智慧化和智能化为目标,通过互联网、物联网、大数据、云计算和人工智能等现代信息技术与农业跨界融合,实现农业生产全过程的信息感知、定量决策、智能控制、精准投入和个性化服务的全新农业生产方式。内蒙古作为我国重要的粮食主产区和粮食净调出省区之一,大力推进智慧农业建设,积极探索智慧农业新技术、新模式、新实践对促进内蒙古智慧农业高质量发展至关重要。

植被NPP时空变化及其对气候变化的响应——以黄河内蒙古段为例

研究黄河内蒙古段植被净初级生产力(NPP)时空变化特征及其对气候变化的响应,为黄河流域环境保护、生态修复等提供科学依据。基于MOD17A3和气象站点资料,运用趋势分析、偏差分析、变异系数、相关分析、残差分析等方法,探讨2002—2021年植被NPP时空变化特征及其对气候变化的响应。结果表明:(1)植被NPP呈波动增加趋势,2011年以前以负偏离为主,2012年以后以正偏离为主。(2)植被NPP平均值为169.15 gC·(m~2·a)^(-1),自西向东递增,101~250 gC·(m~2·a)^(-1)区域占总面积的77.0%,裸地﹤灌木﹤其他﹤草地﹤农田﹤林地。69.1%的区域植被NPP变异系数Cv≤0.2,整体稳定性较好。(3)植被NPP与气温平均偏相关系数为0.31,仅有6.7%的区域通过了0.01的显著性检验;与降水量平均偏相关系数为0.62,有81.1%的区域通过了0.01的显著性检验。说明降水量是影响研究区植被NPP显著增加的主要气候因子。(4)气候变化与人类活动共同导致植被NPP的变化。

乡村振兴战略下农村承包地“三权分置”的政策演进与研究综述

乡村振兴战略是新时代党对农村、农业、农民发展的新形势新任务新目标的重大判断,为新时代我国农业农村改革发展明确了重点、指明了方向。党的二十大报告进一步提出要“全面推进乡村振兴”。作为我国实现农业现代化建设和乡村振兴的必由之路,在乡村振兴战略实施的背景下“三权分置”制度的探索与实行必将得到深化。在乡村振兴战略下,明确实行“三权分置”的必要性,对乡村振兴和“三权分置”的政策演进和研究综述进行梳理,结合相关研究与实践中存在的问题,提出农村承包地“三权分置”研究的展望。

内蒙古马铃薯气候适宜度时空演变及产量动态预报研究

基于内蒙古自治区119个气象站的逐日气象数据,采用未来气候情景模式,结合马铃薯的生理生化指标,构建了各发育阶段温度、降水、日照及综合气候适宜度,分析和预估气候适宜度演变特征及其与马铃薯生产的关系,建立了基于气候适宜度指数的马铃薯产量预报模型,实现了旬尺度、旗县级的产量预报,为优势产区马铃薯的动态监测、产量预报模型优选提供了参考依据。结果表明:近60年(1961—2020年)来内蒙古自治区马铃薯生长季光、热适宜度优于降水,综合气候适宜度高值区在中西部偏南及东部大部分地区,气候资源优势明显;从年际变化上来看,日照适宜度呈弱的上升趋势,温度、降水及综合适宜度呈不同程度的下降趋势,对马铃薯生产呈弱的负效应;未来50年(2021—2070年)RCP4.5低排放情景下气候变化对马铃薯生产表现为弱的正效应的可能性大,RCP8.5高排放情景下则为负效应的可能性大;7月上旬—9月上旬逐旬产量预报模型通过了0.05置信检验的占比达74%,预报外推平均准确率为87.4%,开展业务试应用的效果较好,马铃薯预报趋势与实际情况基本吻合。

蒙古国矿业开发现状研究

蒙古国位于“中蒙俄经济走廊”的中间地带,大地构造位置处于中亚造山带的中心部位,成矿条件好,铜、煤、金、铀、萤石等矿产资源丰富。截至2016年,蒙古国1∶5万地质填图仅覆盖全境33.7%,地质工作进展缓慢,矿产开发程度较低。中蒙关系稳定,经贸合作基础扎实,开展矿业开发合作潜力巨大。受资源储量及开发技术条件限制,蒙古国矿业开发主要集中于煤、铜、金、铁、石油、铅锌、萤石等矿种,且矿业开发中受到基础设施薄弱、生产技术条件落后、政策法规缺乏稳定性等制约。建议中资企业应认真研究该国政策法律法规,发挥资金、技术等优势参与开发和利用矿产资源,并关注矿产品深加工领域和锂矿资源开发领域的合作等。