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1.
Abstract Surface soil texture controls many important ecological, hydrological, and geomorphic processes in arid regions and is therefore important from a land-management perspective. Soil survey efforts have traditionally fulfilled this need, but they are constrained by the size, remoteness, and inaccessibility of many arid regions, which renders simple field measurements prohibitively expensive. This article compares several different predictive soil-mapping techniques with a sparse data set in order to develop surficial soil texture maps. Our results suggest that data collected at the landscape scale can be used as input to predictive soil-mapping techniques to create maps of soil texture at higher fidelity and a fraction of the cost than would be required using traditional methods. 相似文献
2.
数字土壤制图研究综述与展望 总被引:4,自引:0,他引:4
土壤的空间分布是土壤形成与发展过程的体现。数字土壤制图是一种新兴的、高效表达土壤空间分布的技术方法,在过去的30年取得了飞速发展。其理论基础为土壤成土因子学说和地理学第一定律。国内外学者在获取环境变量数据、采样方法、制图模型方法和土壤图产生及评价方面开展了大量的研究,应用案例也从小范围到大区域,甚至是全球尺度。未来数字土壤制图的发展方向包括:环境变量刻画的新技术,特别是体现人类活动方面的环境因子;新型数据和遗留数据的有效利用;土壤发生学知识与数学模型的紧密结合的新型推理方法;支持大数据多终端的计算模式。 相似文献
3.
干旱区大尺度土壤盐度信息环境建模——以新疆天山南北中低海拔冲积平原为例 总被引:4,自引:0,他引:4
区域空间信息有助于决策者针对特定潜在和既定的土壤盐渍化区域制定改良和优化政策,以避免灌区水土资源的不合理配置和干旱区土地生态系统持续性退化。然而现存区域尺度土壤盐度数据以矢量方式留存,多边形内部土壤属性无空间变异性,缺乏实时更新,对当下实际指导作用具有一定的局限性。随着人类活动的加剧,土壤及其结构性退化正加速危害土壤质量和健康。对此,急需更新或升级,用于刻画干旱区生态系统中土壤盐度数据,以辅助制定相关政策,减缓土壤盐渍化的危害。针对此问题,本文基于代表性等级的采样设计方法(Integrative Hierarchical Sampling Strategy, IHSS),获取少量典型样点,结合土壤—环境推理模型(soil land inference model, SoLIM),尝试推理区域尺度土壤盐分含量信息。研究以新疆天山南北中低海拔冲积平原为案例,仅以23个代表性样本,推理陆表(0~10 cm)土壤盐分含量,源自3个典型绿洲94个野外样本的验证数据显示,依据评判标准,预测结果与实际情况较为相符,与线性回归模型相比,具备处理土壤与环境变量之间非线性关系的SoLIM,推理精度更高。所以,研究认为模糊隶属度加权平均的方法(IHSS-SoLIM)可以通过较小的建模点得到更好的预测效果,可作为区域尺度土壤盐度推理的备选方案。 相似文献
4.
温度和降水是干旱半干旱区土壤呼吸的重要扰动因子,全球气候变化导致的未来干旱半干旱区增温和降水变率增大对土壤呼吸有着重要影响。研究通过人工设置P16×2.5mm、P8×5mm、P4×10mm、P2×20mm、P1×40mm的降雨频率梯度和增温2 ℃左右的控制试验,探讨不同降雨频率和增温处理对干旱半干旱区土壤呼吸的影响,以及土壤呼吸与土壤温湿度的关系及其对降雨频率改变的响应。结果表明:降雨频率和增温单独对土壤呼吸具有极显著影响(P<0.001),但是两者之间并无交互作用(P>0.5);在降雨量一定的情况下,土壤呼吸速率随着降雨频率的减小而减小,即多频率小降雨事件激发的土壤呼吸速率大于小频率大降雨事件;增温促进土壤呼吸,提高了约11%的土壤呼吸。本结果有助于对未来干旱半干旱地区全球变暖背景下降雨格局的改变对土壤呼吸产生的影响进行预测,同时也为进一步估算该区域生态系统的碳收支提供参考数据。 相似文献
5.
Comparison of flood hazard assessments on desert piedmonts and playas: A case study in Ivanpah Valley, Nevada 总被引:1,自引:0,他引:1
Colin R. Robins Brenda J. Buck Amanda J. Williams Janice L. Morton P. Kyle House Michael S. Howell Maureen L. Yonovitz 《Geomorphology》2009,103(4):520-532
Accurate and realistic characterizations of flood hazards on desert piedmonts and playas are increasingly important given the rapid urbanization of arid regions. Flood behavior in arid fluvial systems differs greatly from that of the perennial rivers upon which most conventional flood hazard assessment methods are based. Additionally, hazard assessments may vary widely between studies or even contradict other maps. This study's chief objective was to compare and evaluate landscape interpretation and hazard assessment between types of maps depicting assessments of flood risk in Ivanpah Valley, NV, as a case study. As a secondary goal, we explain likely causes of discrepancy between data sets to ameliorate confusion for map users. Four maps, including three different flood hazard assessments of Ivanpah Valley, NV, were compared: (i) a regulatory map prepared by FEMA, (ii) a soil survey map prepared by NRCS, (iii) a surficial geologic map, and (iv) a flood hazard map derived from the surficial geologic map, both of which were prepared by NBMG. GIS comparisons revealed that only 3.4% (33.9 km2) of Ivanpah Valley was found to lie within a FEMA floodplain, while the geologic flood hazard map indicated that ~ 44% of Ivanpah Valley runs some risk of flooding (Fig. 2D). Due to differences in mapping methodology and scale, NRCS data could not be quantitatively compared, and other comparisons were complicated by differences in flood hazard class criteria and terminology between maps. Owing to its scale and scope of attribute data, the surficial geologic map provides the most useful information on flood hazards for land-use planning. This research has implications for future soil geomorphic mapping and flood risk mitigation on desert piedmonts and playas. The Ivanpah Valley study area also includes the location of a planned new international airport, thus this study has immediate implications for urban development and land-use planning near Las Vegas, NV. 相似文献
6.
干旱沙区植被恢复过程中土壤颗粒分形特征 总被引:47,自引:0,他引:47
统计分析了干旱沙漠地区植被恢复过程中土壤颗粒分形特征及其与土壤沙粒(>0.05mm)、粉粒(0.05~0.002mm)和粘粒(<0.002mm)含量和土壤养分状况间的关系。结果表明:土壤颗粒分形维数随恢复时间延长有增大的趋势,土壤颗粒分形维数大小与土壤质地的细粒化有一致的变化趋势。0.05mm粒径成为土壤各粒径的分界值--即土壤分形维数的临界粒径,大于这一粒径颗粒含量越高,土壤分形维数越小;而小于这一粒径的颗粒含量越高,分形维数越大。土壤各养分状况均与土壤颗粒分形维数有极显著的线性正相关关系(p<0.0001),表明了土壤颗粒分形维数能客观地反映土壤肥力特征。在干旱沙漠地区,伴随着植被恢复和流沙固定,土壤颗粒分形维数可作为一个评价土壤演变程度的综合定量指标。 相似文献
7.
利用分形理论解决不同土粒分级标准间土壤质地资料的转换问题 总被引:2,自引:0,他引:2
基于分形理论,选取黄土高原南部厢寺川林场地区20个典型样点,每个样点取3个剖面,共60个土样的实测土壤颗粒粒径分布数据,分别应用分形模型、对数正态模型、逻辑生长模型、WEIBULL模型预测土壤颗粒累积百分含量,提出一种预测土壤颗粒粒径分布的分形模型。结果表明,在0.002~0.1mm粒级范围内,分形模型对已知土壤资料的粒级个数和预测粒级的大小等因素并不敏感,具有较高的预测精度和稳定性;与对数正态模型、逻辑生长模型和WEIBULL模型相比,分形模型的总体预测误差最小且未出现大误差数据,可以有效对不同土粒分级标准间土壤质地资料进行转换。 相似文献
8.
荒漠-绿洲区是干旱区地表景观格局变化最频繁的地区,深入研究荒漠-绿洲区不同景观格局土壤环境的差异对揭示干旱区生态系统过程至关重要。本研究通过采集石羊河流域荒漠、过渡带和绿洲土壤样品,综合运用多种分析方法,研究荒漠-绿洲区不同景观格局土壤理化属性的差异及其相互作用关系。结果表明:从荒漠、过渡带到绿洲景观,土壤质地和持水性能在不断好转,酸碱度和盐分状况变化不大,养分状况则表现为荒漠和过渡带具有近乎相同的有机碳和全氮含量,绿洲具有显著增加的有机碳、全氮和全磷含量。在不同深度上,荒漠景观土壤理化属性几乎没有变化;过渡带土壤质地由表层至深层不断改善,含水量逐层增大,全磷含量缓慢增加,C∶N和C∶P的值波动减小;绿洲景观土壤含水量由表层至深层显著增加,养分含量显著降低,C∶N和C∶P的值显著减小。总体而言,荒漠景观土壤理化属性的分异程度最小,绿洲景观分异程度最大,过渡带景观在土壤质地和含水量方面的分异程度较大,在土壤养分方面的分异程度较小。此外,过渡带景观土壤理化属性的自相关程度最高,且土壤质地是引起其他土壤理化属性分异的主要原因。 相似文献
9.
黑河流域荒漠区土壤水分对降水脉动响应 总被引:16,自引:5,他引:11
利用气象站资料,对黑河流域荒漠区降水特征及其土壤水分对降水脉动响应进行了系统研究。结果表明,荒漠区降水属于降水脉动事件,降水前后土壤水分特征存在显著差异,且随土层增加差异逐渐变小。土壤水分在降水量、土壤深度和降水前后的差异极显著,交互效应也极显著(P<0.0001),表明荒漠区土壤水分对降水脉动具有显著的响应现象。土壤水分的降水脉动响应表现为降水后土壤含水量激增,在蒸散作用下缓慢减小。降水前后土壤含水量的时间序列变异规律均能较好地拟合成变异函数的理论模型。降水前后土壤含水量随机变异均小于结构性变异,反映出荒漠区土壤水分在时间尺度上具有较强的自相关性格局。降水使土壤水分空间结构差异呈现下降趋势,在时间序列上异质性降低。 相似文献
10.
A relatively simple modeling approach for estimating spatially distributed surface energy fluxes was applied to two small watersheds, one in a semi‐arid climate region and one in a sub‐humid region. This approach utilized a combination of ground‐based meteorological data and remotely sensed data to estimate ‘instantaneous’ surface energy fluxes at the time of the satellite or aircraft overpasses. The spatial resolution in the watershed grid cells, which was on the order of 100‐400 km, was selected to be compatible with ground measurements used for validation. The model estimates of surface energy fluxes compared well with ground‐based measurements of surface flux (typically within approximately 40 Wm?2). The model accuracy may be slightly less for bare soil surfaces due to an overestimation of the soil heat flux. In addition to demonstrating the feasibility of computing spatially distributed values of surface energy fluxes, these maps were used to qualitatively infer the dominant factors controlling the energy fluxes for the time period shortly following precipitation events in the basins. For the semi‐arid watershed, values of sensible heat flux varied considerably over the watershed and displayed a pattern very similar to that of the spatially variable cumulative precipitation for at least one to eight days prior to the image acquisition. Due to the large fraction of exposed bare soil in a semi‐arid ecosystem, even very small precipitation events had a strong influence on the pattern of sensible heat fluxes observed shortly after the event (less than 24 hours). For the sub‐humid watershed, the fluxes tended to be more uniform across the watershed, and were influenced by a combination of precipitation total and land cover type. 相似文献
11.
Mapping Soils,Vegetation, and Landforms: An Integrative Physical Geography Field Experience* 总被引:2,自引:0,他引:2
Joseph P. Hupy Stephen P. Aldrich Randall J. Schaetzl Pariwate Varnakovida Eugenio Y. Arima Juliegh R. Bookout Narumon Wiangwang Annalie L. Campos Kevin P. McKnight 《The Professional geographer》2005,57(3):438-451
Students in a graduate seminar at Michigan State University produced a series of detailed vegetation, soils, and landform maps of a 1.5‐square‐mile (3.9 km2) study area in southwest Lower Michigan. The learning outcomes (maps) and skill development objectives (sampling strategies and various GIS applications) of this field‐intensive mapping experience were driven by the assumption that students learn and understand relationships among physical landscape variables better by mapping them than they would in a classroom‐based experience. The group‐based, problem‐solving format was also intended to foster collaboration and camaraderie. The study area lies within a complex, interlobate moraine. Fieldwork involved mapping in groups of two or three, as well as soil and vegetation sampling. Spatial data products assembled and used in the project included topographic maps, a digital elevation model (DEM), aerial photographs, and NRCS (National Resource Conservation Service) soil maps. Most of the soils are dry and sandy, with the main differentiating characteristic being the amount of, and depth to, subsurface clay bands (lamellae) or gravelly zones. The presettlement (early 1830s) vegetation of the area was oak forest, oak savanna, and black oak “barrens.” Upland sites currently support closed forests of white, black, and red oak, with a red maple, dogwood, and sassafras understory. Ecological data suggest that these oak forests will, barring major disturbance, become increasingly dominated by red maple. This group‐based, problem‐solving approach to physical geography education has several advantages over traditional classroom‐based teaching and could also be successfully applied in other, field‐related disciplines. 相似文献
12.
Solen Le Clec’h Sean Sloan Valéry Gond Guillaume Cornu Thibaud Decaens Simon Dufour 《International journal of geographical information science》2018,32(8):1593-1610
Mapping ecosystem services (ES) over large scales is important for environmental monitoring but is often prohibitively expensive and difficult. We test a hybrid, low-cost method of mapping ES indicators over large scales in Pará State, Brazil. Four ES indicators (vegetation carbon stocks, biodiversity index, soil chemical quality index and rates of water infiltration into soil) were measured in the field and then summarized spatially for regional land-cover classes derived from satellite imagery. The regionally mapped ES values correlated strongly with independent and local measures of ES. For example, regional estimates of the vegetation carbon stocks are strongly correlated with actual measures derived from field samples and validation data (significant anova test – p-value = 4.51e?9) and differed on average by only 20 Mg/ha from the field data. Our spatially-nested approach provides reliable and accurate maps of ES at both local and regional scales. Local maps account for the specificities of an area while regional maps provide an accurate generalization of an ES’ state. Such up-scaling methods infuse large-scale ES maps with localized data and enable the estimation of uncertainty of at regional scales. Our approach is first step towards the spatial characterization of ES at large and potentially global scales. 相似文献
13.
干扰对生物土壤结皮及其理化性质的影响 总被引:13,自引:2,他引:11
生物土壤结皮作为荒漠地区特殊环境的产物,具有较强的抗风蚀、水蚀功能,也是干旱荒漠地区植被演替的重要基础。随着人类活动的加剧,生物土壤结皮也受到不同类型和不同程度的干扰,主要包括放牧、火烧、车辆碾压等形式。干扰对生物土壤结皮的影响主要表现在生物土壤结皮结构及盖度的变化、土壤理化性质的改变、土壤微生物数量及活性的变化等几个方面。放牧对土壤物理性质的影响还没有一致的结论,除了干扰的程度还与土壤含水量有关系。火烧虽然改善了土壤结构,但是破坏了地表植被的盖度,而且恢复比较困难,也加速了外界侵蚀的力度,对土壤化学性质也有显著影响。机械碾压的破坏力最强,且没有任何的积极意义。 相似文献
14.
两种典型荒漠植被区土壤微生物量碳的季节变化及影响因素分析 总被引:2,自引:0,他引:2
选取干旱区准噶尔盆地南缘梭梭和柽柳两类典型荒漠植被区的4种不同地表类型(冠层下、枯枝落叶层、地衣结皮覆盖区、裸地),对其从6~10月份的土壤微生物量碳季节变化进行动态监测,并在此基础上进行了土壤微生物量碳与各影响因子之间关系的分析,旨在揭示干旱区土壤微生物量碳季节动态变化特征及其主要影响因子。结果表明:两类典型荒漠植被区的土壤微生物量碳均呈现明显的季节变化,但变化趋势并不一致。其中梭梭植被区4种地表类型下的土壤微生物量碳均在8月达到峰值;柽柳植被区冠层下土壤微生物量碳也在8月份达到最大值,但其他3种地表类型下的土壤微生物量碳却在8月降到最低值。通过土壤微生物量碳的影响因子分析表明两类不同植被区土壤微生物量碳与有机碳、全氮均为(P<0.05)正相关,此外,梭梭植被区与土壤湿度存在正相关,而柽柳植被区则与土壤总含盐量呈显著负相关,表明两类荒漠植被区土壤微生物对影响因子的响应并不完全相同。 相似文献
15.
甘肃旱作农业区降水对土壤水分的影响 总被引:4,自引:0,他引:4
利用甘肃旱作区35个气象站1961-2007年日降水量和13个农业气象观测站从建站到2007年逐年4-10月旬土壤重量含水率资料,分析了旱作区土壤湿度与降水量的关系。采用REOF把甘肃旱作区年降水量划分为4个气候子区域:陇东、陇中西部、陇中东部和陇南。结果表明:①在0~100 cm各层土壤中,耕作层0~30 cm土壤湿度与降水量的关系最好。②旱作区降水量和耕作层土壤湿度存在着一致的年际振荡趋势。各地土壤增湿时间与旬降水达到20 mm的时间基本一致。③耕作层土壤湿度与降水量有极显著的正相关关系,土壤湿度对降水量的敏感性随深度逐渐降低,陇中土壤湿度对降水的敏感性大于陇东南。④不同级别的降水对土壤湿度有不同的影响。不同级别降水之间,土壤湿度的差异极其显著。降水级别从“较强-强”,土壤湿度增幅最大。建立了土壤湿度与不同级别降水的关系式。 相似文献
16.
Sampling efforts are constrained by limited availability of resources. Therefore, methods to reduce the number of samples, while still achieving reasonable accuracy are needed. Land-surface segmentation (LSS) has proven a powerful technique to partition digital elevation models (DEMs) and their derivatives into relatively homogeneous areas, which can be further employed as support in soil sampling. Though topography is one of the main soil forming factors, a robust assessment of the potential of this technique to digital soil mapping (DSM) is still missing. In this study, we aimed at evaluating the potential of LSS in stratifying a landscape into relatively homogeneous areas, which can be used as strata for guiding the selection of sampling points in DSM. The experiments were carried out in two study areas where soil samples were available. Land-surface derivatives were derived from DEMs and segmented with a tool based on the multiresolution segmentation algorithm, into objects considered as homogeneous soil-landscape divisions. Thus, one sample was randomly selected within each segment from the existing sample data, based on which predictions of soil classes/sub-orders and properties, i.e. soil texture and A-horizon thickness, were made. Results were compared with predictions based on simple random sampling (SRS) and conditioned Latin hypercube (cLHS). The segmentation-based sampling (SBS) scheme performed better than SRS and cLHS schemes in predicting the A-horizon thickness, soil texture fractions and soil classes, showing a high potential of LSS in stratifying a landscape for the purposes of DSM. The novelty of this study is in the way strata are constructed, rather than in the sampling design itself. Further research is needed to demonstrate the value of a SBS design for practical use. The analyses presented here further highlight the importance of considering locally adaptive techniques in optimization of sampling schemes and predictions of soil properties. 相似文献
17.
塔克拉玛干沙漠土壤沙化发生条件及对土壤性状影响 总被引:1,自引:0,他引:1
土壤沙化是土壤发育逆向演替恢复母质特性的过程,土壤沙化发生条件可以概括为4个方面:土壤干旱是沙化的根本条件、植被衰败为风沙活动创造了条件、土壤质地轻是沙化物质基础、大风和频繁起沙风是沙化的动力条件。土壤沙化结果使土壤粗粒化、贫瘠化,同时也使土壤含盐量降低。 相似文献
18.
黄河大柳树水利枢纽工程区生态修复绿水资源消耗量定量模拟 总被引:1,自引:1,他引:0
绿水的确定和有效利用对于干旱半干旱地区水资源配置和生态建设有重要的意义。在绿水概念界定基础上,构建基于生态水文理论的绿水资源消耗量定量模型,并以大柳树水利工程区为研究对象,对工程区20世纪50年代以来绿水资源消耗量进行定量模拟,得到研究区绿水资源消耗量现状时空结构特征,进而得到不同水分供应条件下不同植被类型绿水资源消耗定额,确定生态修复措施下工程区的绿水资源消耗量。结果表明:(1)大柳树水利枢纽工程区绿水资源消耗量受降水影响明显,50年代以来整体上表现出增加到降低的变化趋势;(2)不同植被类型绿水资源消耗量差异明显:林地最大,其次为农用地;(3)大柳树水利枢纽工程区不同水平年绿水资源定额,其中枯水年:林地341.2 mm,灌丛241.1 mm,草地200.8 mm,农用地291.5 mm;丰水年:林地444.4 mm,灌丛306.1 mm,草地271.2 mm,农用地399.9 mm;平水年:林地370.3 mm,灌丛295.3 mm,草地250.6 mm,农用地360.6 mm;(4)根据各水平年不同植被类型绿水资源定额以及工程区生态修复方案,利用面积定额法得到工程区各生态修复措施需水总量及工程区各分区生态... 相似文献
19.
土地利用变化会改变土壤质地与结构,影响土壤水力性质,进而改变土壤水分有效性,影响植物生长。由于区域气候的干湿交替与水资源利用效率的提高,干旱区绿洲耕地普遍存在着撂荒-复耕现象。为了明确干旱区耕地撂荒与复耕对土壤水力性质的影响,以民勤绿洲北部边缘的耕地、撂荒地与撂荒复耕地为研究对象,测定0—40 cm深度土壤理化性质,分析不同土地利用下土壤水力性质差异及其影响因素。结果表明:耕地撂荒导致0—40 cm深度黏粒与粉粒比重增加,有机质含量降低,容重降低(P<0.05),土壤孔隙度显著增加(P<0.05),犁底层消失;在高水势阶段,土壤持水与导水能力增强,在土壤有效含水量对应的水势阶段,土壤持水与导水能力变差,有效含水量显著降低(P<0.05)。撂荒地复耕后,0—40 cm深度黏粒与粉粒含量继续增加,有机质含量转而增加,容重增加(P<0.05),土壤孔隙度降低(P<0.05),犁底层重新出现,土壤持水与导水能力又逐渐趋向于耕地水平。撂荒对干旱区绿洲土壤肥力与蓄水能力的提升不显著,而留茬免耕、深耕灭茬还田等保护性耕作措施能有效提高持水能力。利用研究区易测的土壤黏粒、砂粒含量与土壤容重,采用多元线性回归方法,可以准确、快捷预测土壤水分常数,这将有利于研究区农田灌溉制度的准确制定与优化,以及耕地利用变化对土壤水力性质影响的快速评估。 相似文献
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稳定性同位素在干旱区生态水文过程中的应用特征及机理研究 总被引:3,自引:0,他引:3
本文重点阐述了稳定性同位素18O和D在生态-水文过程研究中的研究进展,主要包括植物水分来源与比例、土壤水分动态变化与植物根系吸水、干旱区水分转化与补给等方面的研究成果。并针对我国干旱区生态水文过程研究中的具体问题,指出在今后应加强利用稳定性同位素技术在荒漠植被不同水分来源识别、植物水-地下潜水-土壤水-大气降水的转化过程、干旱区降水对不同尺度范围土壤水分和地下潜水的转化补给、具有水力提升和逆水力提升功能植物识别等方面研究中的应用。 相似文献