陕北靖边庙梁遗址浮选结果与分析

庙梁遗址是陕北地区仰韶晚期至龙山时期的一处聚落遗址, 其出土遗存开启的龙山时代后期"双鋬鬲陶器体系"被认为是石峁文化的重要源头。在发掘过程中对房址、灰坑、灶址等遗迹共采得土样32份, 共计143.5 L, 其中包括仰韶晚期的样品14份, 共67 L; 龙山时期的样品18份, 共76.5 L。通过对庙梁遗址开展的浮选工作, 发现了23个种属的植物种子, 包括粟、黍两种农作物, 以及胡枝子属、草木犀、藜属、虫实属、猪毛菜属、狗尾草、野燕麦、大麻、酸枣等其他植物种子, 共计35913粒。浮选结果显示, 庙梁先民发展以粟、黍为主的旱作农业, 其中粟的地位较高, 这一结构从仰韶晚期到龙山时期没有改变。豆科植物的高出土概率表明庙梁周边的植被条件适宜发展牧业。结合动物考古的研究结果, 庙梁先民在仰韶晚期以农业为主; 进入龙山时期后, 以牛、羊的传入为契机, 牧业也迅速地发展起来, 这种农牧兼营的情况与木柱柱梁等遗址比较相似。这一时期生计策略的变化, 可能是当时人类面临气候波动时的对策之一。房址F4内柱洞D2出土植物遗存十分特殊, 反映出房址F4与粮食加工或消费有关。D2本身可能是一个先于房址废弃的柱洞, 也可能是一类少见的地臼, 结合民族学材料来看, 后者的可能性更大。另外, 庙梁遗址出土了27530粒藜属种子, 有可能是人为收集利用的结果。     

Fe、Mn、Cu在锡林河流域温带草原植被中的含量特征

本文研究了Fe、Mn、Cu三个同周期的植物营养元素在内蒙古锡林河流域三个主要草原群落植被中的含量特征,研究表明:三个元素在凋落物及根系中的含量较高,在立枯中较低,在活体中最低;沿降水、气温和海拔梯度,活体、凋落物中的含量按贝加尔针茅草原、羊草草原、大针茅草原递减,Cu例外,在植物生长末期是递增的;立枯中的元素含量在生长初期递增,在后期递减,Cu也例外,初期和后期都是递增的;在植物系统各组成部分中,生长初期三个元素的含量要高于生长后期;地上部植物体分解程度越高,三个元素的含量也越高;Cu强烈富集于根系中;土壤及降水分别是影响植物元素含量及植物分解的重要因子;三个元素在各草原群落地上部活体中的含量都能够满足牲畜的需要。     

1980s-2010s内蒙古草地表层土壤有机碳储量及其变化

以我国内蒙古草原为研究区域,结合1982-1988年第二次土壤普查资料以及2011-2012年实地考察数据,构建了基于遥感数据和土壤数据的区域表层土壤有机碳储量估算方法,对研究区1980s和2010s表层土壤有机碳储量、空间分布特征及其变化进行研究,结果表明：(1) 1980s、2010s内蒙古草地表层土壤 (0~20 cm) 有机碳储量分别为2.05 Pg C、2.17 Pg C,土壤有机碳密度约为3.48 kg C·m^-2、3.69 kg C·m^-2,其空间分布上呈现从草甸草原、典型草原、荒漠草原逐渐降低的特征;(2) 1982-2012年间,内蒙古草地表层土壤有机碳储量略有增加,但增加幅度较小,其中草甸草原和典型草原表层土壤有机碳储量增加,荒漠草原则表现为减少。研究结果将为研究区因地制宜地采取固碳措施,实现草地可持续管理提供科学参考。     

1980s-2010s内蒙古草地表层土壤有机碳储量及其变化(英文)

Soil carbon sequestration and potential has been a focal issue in global carbon research. Under the background of global change, the estimation of the size as well as its change of soil organic carbon(SOC) storage is of great importance. Based on soil data from the second national soil survey and field survey during 2011–2012, by using the regression method between sampling soil data and remote sensing data, this paper aimed to investigate spatial distribution and changes of topsoil(0–20 cm) organic carbon storage in grasslands of Inner Mongolia between the 1980 s and 2010 s. The results showed that:(1) the SOC storage in grasslands of Inner Mongolia between the 1980 s and 2010 s was estimated to be 2.05 and 2.17 Pg C, with an average density of 3.48 and 3.69 kg C·m–2, respectively. The SOC storage was mainly distributed in the typical steppe and meadow steppe, which accounted for over 98% of the total SOC storage. The spatial distribution showed a decreased trend from the meadow steppe, typical steppe to the desert steppe, corresponding to the temperature and precipitation gradient.(2) SOC changes during 1982–2012 were estimated to be 0.12 Pg C, at 7.00 g C·m–2·yr–1, which didn't show a significant change, indicating that SOC storage in grasslands of Inner Mongolia remained relatively stable over this period. However, topsoil organic carbon showed different trends of carbon source/sink during the past three decades. Meadow steppe and typical steppe had sequestered 0.15 and 0.03 Pg C, respectively, served as a carbon sink; while desert steppe lost 0.06 Pg C, served as a carbon source. It appears that SOC storage in grassland ecosystem may respond differently to climate change, related to vegetation type, regional climate type and grazing intensity. These results might give advice to decision makers on adopting suitable countermeasures for sustainable grassland utilization and protection.     

Stochastic modelling of soil moisture dynamics in a grassland of Qilian Mountain at point scale

Stochastic modeling of soil moisture dynamics is crucial to the quantitative understanding of plant responses to water stresses,hydrological control of nutrient cycling processes,water competition among plants,and some other ecological dynamics,and thus has become a hotspot in ecohydrology at present.In this paper,we based on the continuously monitored data of soil moisture during 2002―2005 and daily precipitation date of 1992―2006,and tried to make a probabilistic analysis of soil moisture dynamics at point scale in a grassland of Qilian Mountain by integrating the stochastic model improved by Laio and the Monte Carlo method.The results show that the inter-annual variations for the soil moisture patterns at different depths are very significant,and that the coefficient of variance(CV) of surface soil moisture(20 cm) is almost continually kept at about 0.23 whether in the rich or poor rainy years.Interestingly,it has been found that the maximal CV of soil moisture has not always appeared at the surface layer.Comparison of the analytically derived soil moisture probability density function(PDF) with the statistical distribution of the observed soil moisture data suggests that the stochastic model can reasonably describe and predict the soil moisture dynamics of the grassland in Qilian Mountain at point scale.By extracting the statistical information of the historical precipitation data in 1994―2006,and inputting them into the stochastic model,we analytically derived the long-term soil moisture PDF without considering the inter-annual climate fluctuations,and then numerically derived the one when considering the inter-annual fluctuation effects in combination with a Monte-Carlo procedure.It was found that,though the peak position of the probability density distribution significantly moved towards drought when considering the disturbance forces,and its width was narrowed,accordingly its peak value was increased,no significant bimodality was observed in the soil moisture dynamics under the given intensity of random fluctuation disturbance.     

气候变化背景下江苏河蟹养殖高温热害风险评估

利用江苏省及周边共85个气象站观测资料,筛选出夏季高温强度、持续时间、降水量和日照时数作为高温热害的关键气象因子,构建高温热害综合指数。在此基础上,利用高温热害发生频率和河蟹因灾死亡率加权建立风险评估模型,将河蟹高温热害风险划分为三个等级,结合地形和土壤的适宜性,最终得出江苏河蟹高温热害风险区划图。结果发现,河蟹高温热害的高风险区位于以高淳为中心的江苏西南部,沿淮和淮北东部沿海地区风险值最低,淮北西部—沿江东部的风险值介于二者之间。年代际高风险区面积有逐渐扩大趋势,1991年以来已外扩到沿江和苏南大部分地区,达到历史极值。河蟹高温热害风险增大,需加强防范。     

北方农牧交错带退耕还林还草经济政策优化调控

退耕还林还草作为北方农牧交错带生态重建的切入点,在实际操作中也不可避免地存在一定的问题。文章对当前退耕还林还草的社会经济特征、政策安排、协调机制及制约因素进行了分析。提出:区域粮食适度自给定位、部门协调机制创新、产权制度改革、区域产业专业化分工、适度生态移民及建立生态补偿机制为进行政策优化调控的主要途径。     

公路建设对甘南草原生态环境的影响

根据甘肃甘南藏族自治区的自然环境特征、国道G213线的工程建设特点,分析了G213线改扩建工程对甘南州草原生态环境的影响。结果表明,公路建设施工期对沿线植被的负面影响较剧烈,局部土壤环境受到较大扰动,被扰动的土体侵蚀类型主要是水蚀,扰动后可能造成水土流失量为68866.7 t,新增水土流失量为63 060.5 t。针对项目可能存在的主要生态环境问题(植被破坏、水土流失等),提出了建议措施。     

关于宁、蒙、陕农牧交错带重点地区退耕还林(草)工程实施情况与建议

阐述了农牧交错带生态环境退化和恶化的原因,除了气候条件等自然因素外,主要是由于人类过度开垦、放牧、采挖等一系列不合理经济活动破坏生态环境引起的。目前正在实施的退耕还林(草)工程正是针对这一地区生态退化和恶化而采取的加强生态保护和建设的重大举措。工程实施两年多以来,进展顺利,已取得了重要成就,局部地区生态有了明显改善。并且,根据该区自然特点,灾害状况,以及恢复这一地区生态屏障的作用,提出有关该区的经营方向,扩大退耕还林(草),退牧还草的一些建议。     

内蒙古半干旱草原下垫面地表辐射特征

中纬度半干旱草原是全球陆地生态系统的重要类型之一,也是我国北方主要的地表类型,为深入了解我国半干旱草原区陆面对大气的辐射强迫,选取锡林浩特国家气候观象台2010年的辐射观测资料,分析了内蒙古半干旱草原下垫面地表辐射平衡各分量、地表吸收辐射和有效辐射以及地表反照率的日变化和季节变化规律,并与西北典型干旱区作了对比分析。结果表明：半干旱草原区太阳总辐射季节变化特征非常明显,季节平均日积分值由大到小依次为夏季、春季、秋季、冬季,年总量为6 036.64 MJ/m²,与黑河地区绿洲接近,明显小于戈壁和沙漠下垫面的值;半干旱草原地表反射辐射年变化趋势较为复杂,在4～10月由于下垫面植被和土壤类型、湿度等的差异,半干旱草原地表反射辐射月平均值低于黑河地区草地和荒漠的值,但高于农田的值;地表吸收辐射季节变化规律与总辐射保持一致;大气长波辐射年总量为8 155.23 MJ/m²,低于黑河地区草地、荒漠和农田下垫面的值,主要是由于半干旱草原区地理纬度较高,全年平均气温较低造成的;在植被覆盖较好的6～9月,半干旱草原区地表长波辐射月总量为4 532.14 MJ/m²,低于黑河流域的荒漠区,而高于草地和农田的值;半干旱草原区地表有效辐射年总量为2 398.75 MJ/m²,小于黑河地区沙漠和戈壁下垫面而大于绿洲;半干旱草原区地表反照率年均值为0.35,均大于西北干旱区不同下垫面,主要由于半干旱草原区冬春季地表积雪覆盖时间明显长于干旱区,可见,地表积雪对反照率的影响非常大。