Relationships between Artemisia ordosica communities and environmental factors following sand-dune stabilization in the Mu Us desert,northwest China

Artemisia ordosica is an excellent sand-fixing shrub for sand stabilization in northwestern China. Sand dune stabilization, a critically important process, leads changes in abiotic factors, such as soil structure and nutrient contents. However, the effects of factors on an A. ordosica community following sand stabilization remain unclear. In this study, we used canonical correspondence analysis （CCA） to examine the relationships between A. ordosica communities and environmental factors at three habitats： semi-fixed dune （SF）, fixed dune with low-cov- erage biological soil crust （F）, and fixed dune with high- coverage biological soil crust （FC） in Mu Us desert. The mean height and coverage of plants increased with sand stabilization, while species diversity and richness increased initially and then reduced significantly. Correlation analysis and CCA revealed that slope, soil organic carbon, and nutrient contents, proportion of fine soil particles, soil moisture, and thickness of biological soil crust were all highly correlated with vegetation characteristics. These environmental factors could explain 40.42 % of the vege- tation-environment relationships at the three habitats. The distribution of plant species was positively related to soil moisture in the SF dune. Soil moisture, soil nutrient, and fine-particle contents mainly affected plants distribution in the F dune. In the FC dune, distribution of plant species was positively and negatively correlated with the thickness of biological soil crust and soil moisture at a depth 0-20 cm, respectively. The dominance value of typical steppe species increased significantly following sand-dune stabilization and relations between species and samples in CCA ordination bi-plots showed that perennial grasses could invade the A. ordosica community on FC, indicating A. ordosica communities had a tendency to change into typical steppe vegetation with the further fixation. We conclude that the significant differentiation not only occurred in community characteristics, but also in the relationships between vegetation and environmental factors among the three stages of dune fixation. So, restoration of degraded dune ecosystems should be based on habitat conditions and ecological needs.

Grazing exclusion-induced shifts,the relative importance of environmental filtering,biotic interactions and dispersal limitation in shaping desert steppe communities,northern China

Grazing exclusion is one of the most efficient approaches to restore degraded grassland but may negatively affects the recovery of species diversity. Changes in plant species diversity should be a consequence of the ecological assembly process. Local community assembly is influenced by environmental filtering, biotic interactions, and dispersal. However, how these factors potentially contribute to changes to species diversity is poorly understood, especially in harsh environments. In this study, two management sites within a Stipa breviflora desert steppe community（typical natural steppe） were selected in northern China. In one of the two management sites, grazing has been excluded since 2010 and in the other with open grazing by sheep. In August 2016, three plots were established and 100 sampling units were created within each plot in a 5 m×5 m area at the two management sites. To assess the effects of grazing exclusion on S. breviflora steppe, we analyzed the vegetation biomass, species diversity,soil organic carbon, and soil particle size distribution using paired T-tests. In addition, variation partitioning was applied to determine the relative importance of environmental filtering and dispersal limitation. Null mode analysis was used to quantify the influence of biotic interactions in conjunction with Eco Sim niche overlap and co-occurrence values. Our results demonstrated that（1） species diversity significantly decreased and the main improvements in soil quality occurred in the topsoil 0–10 cm after the grazing exclusion;（2） environmental filtering was important for community assembly between grazed and fenced grassland and this appears particularly true for soil particle size distribution, which may be well correlated with soil hydrological processes; and（3） however, competitive exclusion may play a significant role within the exclusion. The multiple pathways of assembly may collectively determine negative effects on the restoration of species diversity. Therefore, designers should be aware of the risk of reducing grazing exclusion-induced species diversity and account for manipulating processes. This in turn will reduce dominant species and promote environmental heterogeneity to maximize species diversity in semi-arid regions.

Controlled Environment Agriculture and Its Ability to Mitigate Food Insecurity

The research objective of this review is to discuss the rationale that led to the development of Controlled Environment Agriculture (CEA) and investigate this agricultural approach as a potential solution to mitigate the increased pressures on food security. It describes the need for urban cultivation systems using controlled environments and how they can be harnessed to address pressures facing food security. The factors that have contributed to the growth of CEAs, education, environmental justice, and the advantages and disadvantages of growing crops in CEAs in urban areas will be discussed. The article reviews global urban cultivation systems using controlled environments, by identifying the technologies needed to establish them. The practice of CEA is being increasingly adopted worldwide and we describe urban agriculture and compare it with traditional growing systems. Indoor farming systems that integrate into existing urban infrastructure such as vertical farming and plant factories using CEAs are discussed. Indoor farming gives urban areas enhanced access to food sources, but the cost is high, however decreasing due to recent technological advances. The current review extends the literature by incorporating recent research on the topic of agriculture in urban areas and food security. This review seeks to provide additional information regarding the viability of CEA in urban areas.

荒漠草原不同植物群落蒸散组分特征及其环境因子影响分析

蒸散发是生态水文过程的关键环节,掌握蒸散组分的变化特征及其影响因子,对干旱半干旱地区的可持续发展至关重要。以荒漠草原多年生植物针茅群落和一年生植物猪毛蒿群落为研究对象,利用小型蒸渗仪开展了连续3年监测,分析了蒸散组分的日、月和年变化规律,探讨了影响蒸散组分的主要环境因子。结果表明:晴天时,多年生和一年生植物群落蒸散组分呈先增加后减小的抛物线型,夜间蒸散活动较弱,累积蒸散量较低,不足全天总累积蒸散量的20%;阴天时各蒸散组分无明显峰值,且日累积量均较小,一年生和多年生植物群落的蒸散量、蒸发量和蒸腾量无显著差异;10.64 mm/d及以上降雨对蒸散和蒸发的日变化具有明显影响,随着降雨量的增多,蒸散量和蒸发量也呈增大趋势,但蒸腾量则相对较小。从月动态来看,7—9月占全年蒸散量和蒸发量的一半左右,冬春季蒸散量和蒸发量维持在全年最低水平。年蒸散量与年降雨量接近,而蒸腾量占蒸散量的比例低于10%。总体来看,多年生植物群落蒸散量较一年生植物群落多。采用Mantel检验方法分析不同时间尺度影响蒸散组分的主要气候因素,在小时尺度上太阳辐射与蒸发量和蒸腾量显著性水平较高(P<0.01),但相关性较低(r<0.2);在日尺度上,蒸散量、蒸发量和蒸腾量与降雨量的显著性(P<0.01)和相关性(r≥0.4)均最高;而月尺度上,降雨量和降雨速率与蒸散量、蒸发量的相关性较高(0.2≤r<0.4),但显著性较低(P≥0.05)。因此,蒸散组分受环境因子的影响在不同时间尺度上具有较大差异,说明蒸散组分受多种因子共同影响。

阴山北麓4种豆科荒漠灌木地上生物量及其环境解释

以阴山北麓柠条锦鸡儿(Caragana korshinskii)、垫状锦鸡儿(Caragana tibetica)、狭叶锦鸡儿(Caragana stenophylla)和刺叶柄棘豆(Oxytropis aciphylla)4种豆科荒漠植被群系及其环境因子为研究对象,采用样方调查法,揭示不同荒漠灌丛生物量变化规律及其与群落特征及土壤因子之间关系。结果表明:不同灌木群系中,建群种地上生物量受群落内植物种种间竞争以及土壤钙积层和湿土层厚度的影响,主要表现为伴生种长势越好,建群种生物量越低,并且随着湿土层厚度的增加,钙积层厚度的减少,建群种地上生物量增加。同时利用拟合函数求得柠条锦鸡儿和刺叶柄棘豆群系建群种地上生物量最佳预测模型为幂函数模型,垫状锦鸡儿、狭叶锦鸡儿群系建群种地上生物量最佳预测模型为多项式函数模型。

黄土高原靖边剖面岩石磁学性质及其古环境意义

中国黄土在东亚第四纪气候环境变化研究领域占有重要地位,靖边黄土剖面位于黄土高原北部边缘,对东亚季风变化敏感.本文对靖边黄土剖面进行了详细的岩石磁学和环境磁学研究.剖面沉积物中的主要磁性矿物为磁铁矿、磁赤铁矿以及赤铁矿,黄土中的碎屑磁铁矿普遍经历了低温氧化作用的初始阶段,形成磁赤铁矿外壳包裹磁铁矿内核的结构,导致矫顽力大幅增加.磁化率随温度变化曲线(X-T)指示成壤作用生成的单畴颗粒的亚铁磁性矿物(磁铁矿和磁赤铁矿)的含量在L15(约1.25Ma)后整体减少,表明东亚夏季风强度发生阶段性减弱.黄土层中的磁化率与非磁滞磁化率比值(X/X_(ARM))与来自物源区粗粒磁性矿物含量相关,冬季风增强则X/X_(ARM)值越高,靖边剖面黄土层X/X_(ARM)在L14以后整体增加,L6以来逐渐增加,表明东亚冬季风发生过两次增强.矫正后磁化率与非磁滞磁化率((X-X_(0))/X_(ARM))指示了来自物源区磁性矿物含量,靖边剖面自2.6Ma以来,(X-X_(0))/X_(ARM)逐渐增加,源区的磁性矿物含量增多表明冬季风逐渐增强.非磁滞剩磁与饱和等温剩磁中值退磁场比值(MDF_(ARM)/MDF_(SIRM))与样品相关,样品磁性矿物粒度越粗,低温氧化作用越弱,矫顽力越高,MDF_(ARM)/MDF_(SIRM)越高,靖边剖面MDF_(ARM)/MDF_(SIRM)分别在L14和L6后整体升高,表明磁性矿物粒度整体变粗,代表了沙漠两次向南扩张.综上磁学参数一致表明,靖边黄土剖面有效地记录了东亚季风演化过程,对研究亚洲内陆干旱环境演变有重要意义.

Spatial pattern of plant species diversity and the influencing factors in a Gobi Desert within the Heihe River Basin, Northwest China

Understanding the spatial pattern of plant species diversity and the influencing factors has important implications for the conservation and management of ecosystem biodiversity. The transitional zone between biomes in desert ecosystems, however, has received little attention in that regard. In this study, we conducted a quantitative field survey （including 187 sampling plots） in a 40-km2 study area to determine the spatial pattern of plant species diversity and analyze the influencing factors in a Gobi Desert within the Heihe River Basin, Northwest China. A total of 42 plant species belonging to 16 families and 39 genera were recorded. Shrub and semi-shrub species generally represented the major part of the plant communities （covering 90% of the land surface）, while annual and perennial herbaceous species occupied a large proportion of the total recorded species （71%）. Patrick richness index （R）, Shannon-Wiener diversity index （H）, Simpson＇s dominance index （D）, and Pielou＇s evenness index （I） were all moderately spadaUy variable, and the variability increased with increasing sampling area. The semivariograms for R and H＇ were best fitted with Gaussian models while the semivariograms for D andJ were best fitted with exponential models. Nugget-to-still ratios indicated a moderate spatial autocorrelation for R, H＇, and D while a strong spatial autocorrelation was observed for J. The spatial patterns of R and H＇ were closely related to the geographic location within the study area, with lower values near the oasis and higher values near the mountains. However, there was an opposite trend for D. R, H＇, and D were significantly correlated with elevation, soil texture, bulk density, saturated hydraulic conductivity, and total porosity （P〈0.05）. Generally speaking, locations at higher elevations tended to have higher species richness and diversity and the higher elevations were characterized by higher values in sand and gravel contents, bulk density, and saturated hydraulic conductivity and also by lower values in total porosity. Furthermore, spatial variability of plant species diversity was dependent on the sampling area.

河西走廊中段荒漠植被组成及土壤养分空间分布特征

荒漠植被是河西走廊绿洲生态安全防护的重要屏障,研究荒漠植被组成及土壤养分分布特征对于荒漠—绿洲过渡带荒漠植被建设及管理有重要意义。本研究基于大量野外调查,并使用传统统计学与地统计学方法,研究了河西走廊中段及巴丹吉林沙漠南缘荒漠植被组成及土壤养分特征,并解析了其与环境因子的相关关系。结果表明:河西走廊中段及巴丹吉林沙漠西南缘荒漠区植物组成单一,多样性较低,且植物种类集中在少数科中,出现频度高的植物均为红砂(Reaumuria songarica)和白刺(Nitraria tangutorum)等典型荒漠植物。草本植物分布与年均降水量有较强相关性,研究区最南端的山丹县草本生物量达到108.01 g·m^(-2),在一定年降水量区间,灌木生物量随降水增加而增加,最高值出现在靠近祁连山北坡的肃州区,为134.03 g·m^(-2);降水量的增加,会显著促进草本植物的生长。研究区表层土壤有机碳、总氮、总磷含量最高,其平均值分别为2.12 g·kg^(−1)、0.25 g·kg^(−1)、0.41 g·kg^(−1),且离散程度较底层土壤更高;水平方向上三种土壤养分变异程度高,空间自相关性弱,最高值出现在张掖绿洲附近,分别达到11.22 g·kg^(−1)、1.30 g·kg^(−1)、0.73 g·kg^(−1)。主成分分析显示,造成研究区生境差异的首要因素是土壤属性,其次是降水,但不同环境因子之间也会互相影响,共同驱动了荒漠植被组成及分布。

The Seasonal Distribution of Wild Camels (<i>Camelus ferus</i>) in Relation to Changes of the Environmental Conditions in Mongolia

The wild camel (Camelus ferus) is a critically endangered large ungulate, surviving in just three distinct populations located in the Taklamakan Desert, China;deserts near Lop Nuur, China;and in China and Mongolia within and adjacent to Mongolia’s Great Gobi Strictly Protected Area (GGSPA). The population surviving in Mongolia remains poorly researched, but as few as 500 individuals may survive, although its distribution has remained relatively constant over the past 30 - 50 years. This study aimed at identifying potentially important environmental factors that influence the distribution of wild camels in Mongolia and predicting seasonal movement. We predicted distribution by season using presence only data and selected environmental predictors, including land surface temperature, normalized difference vegetation indices (NDVI), water sources, vegetation and soil. Model predictions revealed that land surface temperature in summer correlated significantly with wild camel distribution, with camels occurring in cooler areas. Abundance of biomass did not significantly correlate with camel distribution. Camels occurred in areas with intermediate levels of NDVI in most seasons, implying that they may base foraging decisions on forage quantity, not quality. Positive correlations of camel distribution with higher NDVI in summer (P = 0.03) suggests that they may prefer herbaceous species that appear after rainfall. Models indicate distance to water sources may be critical for camel distribution in all seasons. Camel occurrence correlated with areas containing shallow mountain soils in summer. Camels displayed no significant habitat correlations in other seasons, yet ranges differed among all seasons. Camels used a common region in spring, summer and autumn that we believe represents the core of the species’ annual range. Wild camel distribution during winter varied significantly from other seasons. Our modelling led to a predicted distribution range that was consistent with ranges described by previous research, indicating consistency between survey data and satellite tracking data.

基于二维云模型的沙漠高速公路生态风险评价及优选研究

为研究以生态平衡为导向的沙漠高速公路方案风险评价,基于腾格里沙漠特殊的地理环境与道路施工特征,从动植物生存环境干扰、自然生态景观破坏、水土资源污染、自然资源开发利用、植物固沙及后期维护5个方面建立沙漠地区的生态风险评价指标体系,运用集值统计法优化传统AHP法,确定各评价指标权重,再以生态环境破坏情况与修复成本作为二维云模型的2组基础数字特征,建立生态风险和二维云模型间的联系;借助MATLAB输出二维风险云图,对比不同道路方案的一级指标和的综合生态风险云评价等级。按上述方法构造模型,对乌玛高速中卫穿沙段两条道路方案进行生态风险评价,结果表明:西线道路方案有效保护了沙坡头景区和水源保护地的生态平衡和安全,综合生态风险等级介于良好和优秀之间,更贴近良好,南线道路方案对原有生态环境破坏程度较大,修复成本高,综合生态风险等级介于一般和良好之间,更贴近一般,因此更推荐西线方案作为道路修建的实施方案,这也与工程实际情况一致,从而验证了数学模型对沙漠地区生态风险评价的适用性和有效性。

装甲车辆沙漠戈壁地区环境适应性试验设计

针对我军当前装甲车辆鉴定定型试验中,沙漠戈壁地区适应性试验考核试验覆盖度较低、考核强度不足、试验标准老旧等问题,导致作战效能大幅下降,甚至无法满足作战使用要求。在参照当前传统的严寒、湿热、高原地区适应试验组织方法基础上,结合当前复杂环境试验及边界条件考核要求,分析了沙漠戈壁地区敏感环境因素,提出了2种新型试验方法,一是“基础+复杂”组合的沙漠戈壁地区适应性试验方法,二是基于作战使用任务剖面循环的试验方法,进一步提升试验考核强度及深度,为装甲车辆沙漠戈壁地区适应性试验开展提供了设计新思路。

内蒙古荒漠草原植物水分利用特征差异及对环境因子的响应

水分是干旱半干旱地区植被生长的主要限制因子,水分利用是反映植被对环境变化响应的关键生态水文过程。目前缺少对干旱半干旱区草原不同科、属植物水分利用特征差异的系统分析,且植物水分利用特征与环境因子的定量关系需要进一步研究。在内蒙古荒漠草原进行样带调查,采集7个样地0—100 cm深度土壤样品和15种植物根茎结合部(茎秆)、叶片样品,测定土壤水、植物水中δ^(2)H和δ^(18)O和植物叶片δ^(13)C的同位素,利用MixSIAR模型确定不同科、属植物水分来源比例,分析不同科、属植物水分利用来源和水分利用效率的差异,并建立植物水分来源比例及水分利用效率与各环境因子的定量关系。结果表明:(1)禾本科和菊科植物主要利用0—30 cm深度土壤水(55.63%和51.84%),其叶片δ~(13)C(-26.61‰和-27.91‰)均低于其他科(包括柽柳科、藜科和蔷薇科)(-26.36‰),且其他科主要利用60—100 cm深度土壤水(36.83%),水分利用策略更有利于在干旱条件下生存。(2)针茅属植物对0—30 cm深度土壤水的利用(55.28%)和叶片δ~(13)C(-26.38‰)高于蒿属(31%和-28.14‰),较高的水分利用效率使其在干旱环境中具有较强的生态适应性。(3)植物对不同深度土壤水的利用比例和叶片δ~(13)C对不同环境因子的响应有所差异,其中植物水分来源比例主要受年均降雨量、年均温和叶周长影响(P<0.05)。本研究揭示荒漠草原植物水分利用特征,有助于理解植物对环境变化的响应策略,同时对该地区生态系统管理提供理论依据。

“河套东南角理想剖面”的新近研究

以在萨拉乌苏河流域近年命名的“米浪沟湾地层剖面”作为河套东南的理想剖面 ,描述了其地层特征、讨论了地层磁化率值和粒度分布与气候变迁的关系。研究指出 ,该剖面记录了 15 0kaBP以来毛乌素沙漠 2 7个旋回的砂丘与河湖相和古土壤互为交替的演化历史 ;剖面风成砂丘的堆积时期和河湖相或古土壤发育时期分别主要与过去冬季风和夏季风作用加强有关。根据中国沙漠及黄土区现代沙尘暴发生的区域特征认为 ,米浪沟湾剖面记录的15 0ka来的 2 7次砂丘期代表了中国沙区存在 2 7个沙漠堆积时期。

五十万年来毛乌素沙漠的变迁

对沙漠－黄土边界带的古风成砂－黄土－古土壤序列的研究表明，毛乌素沙漠至少在０．５ＭａＢ．Ｐ．就已出现，但也并非从其出现之初就持续至今。沙漠－黄土边界带的风成沉积所记录的沙丘活化和固定的多次转变是第四纪时期毛乌素沙漠对气候振荡响应的结果。五十万年来，沙漠－黄土边界带的石峁剖面记录了１３层古风成砂，代表了１３次沙漠大规模的南侵。沙漠的南侵不仅可以发生在冰期鼎盛之时，同样也可以发生在间冰期中的寒冷气候幕出现之时。此外，鉴于沙漠－黄土边界带具有气候敏感性的特点，石峁剖面的地层记录还表明了第四纪时期不仅有冷期与暖期的多次旋回，而且冷期和暖期发生时还有次一级的气候波动。

乌兰布和沙漠人工梭梭夏季茎干液流变化特征及其与气象因子的关系

为了揭示乌兰布和沙漠人工梭梭水分利用规律,探究人工梭梭的生态适应能力,利用PS-TDP8树木茎流监测系统和自动气象站对乌兰布和沙漠1979年人工种植梭梭的液流变化及其周围的环境因子进行观测,采用逐步回归及相关分析法对茎干液流变化规律及其与太阳总辐射、空气温度、相对湿度、风速、土壤温度、土壤含水量的相关关系进行研究。结果表明:梭梭晴天茎干液流日变化呈“单峰型”,雨天茎干液流日变化呈“双峰型”;夏季晴天梭梭茎干液流在7:00左右启动,9:30左右出现峰值,液流在10:20以后开始迅速下降,至21:30基本下降到极低值,夜间仍有液流。直径12.5和8.95 cm的梭梭液流日累积量分别为14.23和2.60 L。晴天,茎干液流速率变化幅度较大,白天的液流速率高于夜间。雨天的液流峰值显著低于晴天,且夜间液流小于晴天。相关性分析表明,晴天,影响梭梭液流速率的环境因子依次为太阳总辐射、土壤含水量、空气温度、空气相对湿度、土壤温度、风速;雨天,影响梭梭液流速率的主要环境因子依次为太阳总辐射、空气温度、空气相对湿度、土壤温度、风速、土壤含水量。研究结果可为人工梭梭林的经营管理提供理论支撑,对沙漠地区人工梭梭的管理和保护有重要的理论和实际意义。

科尔沁沙地及其古水文网的演化变迁

在科尔沁,沙地的形成演化与古河流的变迁存在着密切的联系,本文通过对科尔沁沙地遥感图像的解析,全面分析了沙地与河流分布的宏观特征,结合野外考证资料,认为存在5期可辨认的河流发育阶段,每个阶段都有不同的河流展布特点,而风沙也存在至少4个活动期。古河道-Ⅴ形成于风沙-Ⅱ和Ⅲ期形成之前,可能是末次冰期之前,即中更新世或更早,这时河流能够进人古松辽大湖;古河道-Ⅳ形成于风沙-Ⅱ和Ⅲ期形成之时,可能是末次冰期时期,这时河流与松辽大湖萎缩,规模减小,河流已不能进入松辽大湖,而是消失在沙地之中;古河道-Ⅲ形成于风沙-Ⅱ和Ⅲ期形成之后,可能是末次冰期末期的冰消期,这时气温升高,大量的冰雪融水进入河流,促使河水漫流,流入沙垅垅间洼地,开始造成古西拉木伦河、古老哈河与教来河水文网之间的相互联系;古河道-Ⅱ形成于全新世适宜期时期,统一的西辽河形成,伴随气候变化,出现多次风沙进退,对应于风沙-Ⅰ期;河道-Ⅰ是现在,同属于风沙-Ⅰ期,活动沙地集中在翁牛特等地。

环境因子对荒漠沙蜥种群密度影响的研究

本文研究人类改造荒漠的活动、植被、潜在的可利用的食物资源、竞争种的密度、土壤理化性质等坏境因子对荒漠沙蜥(Phrynocephalus przewalskii)种群密度的影响。结果说明:人类的活动对沙蜥种群密度没有显著影响;决定沙蜥种群密度的主导因子是潜在的可利用的食物资源、植被、土壤含水量、竞争种的密度。这些因子的任何改变都能改变沙蜥的种群密度,均具有调节种群的作用。

古尔班通古特沙漠植被与环境的关系

对古尔班通古特沙漠进行了纵向及横向的路线调查,植被测度和土壤理化性质分析。对比发现该沙漠地貌形态纵、横向上的显著差异,使沙漠植被分布格局存在着异质性,即植物群落的物种多样性、优势度及盖度在纵、横向上明显不同。CCA排序结果显示,土壤的有机质含量、全盐含量、分选系数、含水量和pH值等微生境使植被沿其变化梯度以不甚耐盐碱的短命、类短命草本和小半灌木、半灌木为主的群落逐渐向耐盐碱的灌木、小乔木类群落转变。地形和土壤质地可使横向上相当数量的植物种产生空间分化,而这种分化在纵向上不明显。沙漠植被物种在各生境梯度作用下形成3类组合,其在横向上对应3个地段,但在纵向上没有清晰的对应空间(除南北边缘区外),原因是多数植物的生境处于沙漠纵向微生境梯度的中间序位。

乌兰布和沙漠的形成与环境变化

在对乌兰布和沙漠进行野外考察的基础上,通过地貌学、沉积学和年代学的研究,为恢复该地区全新世以来沙漠的形成与演化找到了新的证据。乌兰布和沙漠西南部的吉兰泰盐湖周围及沙漠南部丘间低地湖相地层下部风成砂的系统OSL测年结果表明,乌兰布和沙漠的形成年代约在7ka BP前后。此外,该沙漠腹地众多的干盐湖,大量含有蓝蚬的湖岸堤,以及丘间低地中的湖相地层和植物根系等的存在,证明了沙漠腹地大古湖的存在。乌兰布和沙漠的形成,可以归因于吉兰泰古湖面积的不断缩小和干涸,湖泊周围松散沉积物的风蚀、搬运及选择性堆积过程。

绿洲-荒漠过渡带芨芨草地SPAC系统蒸散与①多环境因子关系分析

利用波文比能量平衡法对天山北麓绿洲荒漠过渡带芨芨草地的夏季蒸散量进行测定,采用通径分析与相关分析相结合的方法探讨了蒸散与主要环境因子之间的关系,建立了适合该地区的蒸散预测模型。结果表明:(1)各种环境因子对蒸散影响的大小排序为:净辐射(R n)>土壤热通量(G)>空气温度(T气)>空气相对湿度(RH)>5 cm土壤温度(T土-5 cm)>实际水汽压(e a)>风速(Vwind)>5 cm土壤含水率(S土-5 cm);(2)各因子通过R n对蒸散产生的间接作用都大于其自身直接作用,反映出净辐射是制约蒸散大小的主导因子,是决定干旱区蒸散量的关键;(3)土壤热通量对蒸散的直接负效应远小于通过其他因子的间接正效应,出现其直接负效应与综合效应相反的结果;(4)建立并经过检验的蒸散预测模型表明:与温暖湿润区蒸散依靠水、热并重情况不同的是,极端干旱区主要依靠热量因子强度的增加,才能有较大的蒸散量。