Soil water deficit and vegetation restoration in the refuse dumps of the Heidaigou open-pit coal mine,Inner Mongolia,China

The sustainability of ecosystem restoration of refuse dumps in open-pit coal mines depends on plant species selection, their configuration, and the optimal usage of water resources. This study is based on field experiments in the northern refuse dump of the Heidaigou open-pit coal mine in Inner Mongolia of China established in 1995. Eight plant configurations, including trees, shrubs, grasses, and their combinations, as well as the adjacent community of natural vegetation, were selected. The succession of the revegetated plants, soil water storage, the spatiotemporal distribution of plant water deficits degree and its compensation degree were also studied. Results indicated that the vegetation cover （shrubs and herbaceous cover）, richness, abundance, soil nutrients （soil organic matter, N and P）, and biological soil crust coverage on the soil surface are significantly influenced by the vegetation configurations. The average soil water storage values in the shrub ＋ grass and grass communities throughout the growing season are 208.69 mm and 206.55 mm, which are the closest to that of in the natural vegetation community （215.87 mm）. Plant water deficits degree in the grass and shrub ＋ grass communities were the lowest, but the degrees of water deficit compensation in these configuration were larger than those of the other vegetation configurations. Differences in plant water deficit degree and water compensation among the different config- urations were significant （P 〈0.05）. Plant water deficit degrees were predominantly minimal on the surface, increased with increasing soil depth, and remained stable at 80 cm soil depth. The soil moisture compensation in the natural vegetation, shrub ＋ grass, and grass communities changed at 10%, while that in other vegetation communities changed between 20% and 40%. Overall, we conclude that the shrub ＋ grass and grass configuration modes are the optimal vegetation restoration models in terms of ecohydrology for future ecological engineering projects.

Study on the Characteristics of Soil Moisture of Artificial Robinia pseudoacacia Forest Land in Different Latitudinal Zones of Northern Shaanxi

This article studies the soil moisture conditions of 30 years artificial Robinia pseudoacacia in the north of Shaanxi under different climate conditions in order to explore the relationship between soil moisture and impact factor of Robinia pseudoacacia in this area,and variation characteristics of soil moisture in the Loess Plateau region. The results show that soil moisture content decreases with increase of soil depth, and in 40- 50 cm depth the jump point of moisture reduction appears significantly. Soil moisture was lower than the growth critical moisture in 5 samples to the north of Chunhua,and has different degrees of deficit. Soil moisture deficit degree was more than 50% in sandy loam and light loam soils such as Yulin,Shenmu and Suide. With the increasing of latitude,both of soil accumulative storage and net rainfall tends to decrease,but the relationship between them is significant correlation,indicating that that climate conditions are the major factors causing significant difference of soil moisture.

锡林郭勒草原土壤水分时空特征分析

为研究内蒙古锡林郭勒草原不同草原地区土壤水分的时空差异特征,运用灰色关联度法和方差分析法对3种草原类型植被在2017年5-9月份的土壤水分及总储水量变化进行了分析。结果显示:1)在剖面方向上,草甸草原和荒漠草原土壤水分关联度均在中层与深层达到最高值,分别为0.7250和0.7865,典型草原土壤水分关联度最高值在表层与深层,数值为0.8071。2)在不同时间尺度上,不同草原类型土壤水分的关联度存在差异性。以植被生长初期5月份为参考序列,草甸草原土壤水分变化趋势为降低-上升的动态变化,典型草原土壤水分关联度则呈现降低-升高-降低的变化趋势,荒漠草原则与典型草原呈现相反的动态变化特征。3)从同一月份不同草原类型来看,7-8月份荒漠草原的土壤总储水量与典型草原和草甸草原的总储水量具有显著差异性,其余月份间均没有显著性差异。

晋西黄土区不同密度刺槐林对土壤水分的影响

在晋西黄土区蔡家川流域刺槐林地调查的基础上,选择密度为1 400株/hm2与2 200株/hm2的刺槐林地分别代表研究区低密度和高密度的刺槐林,并以裸地作为对照。通过设立固定样地,定位观测样地0—150cm土层的土壤水分,研究不同密度刺槐林地土壤水分状况及时空变化规律,并以土壤水分亏缺度和补偿度研究试验区降雨对刺槐林地土壤水分补偿与恢复效应。结果表明:(1)低密度刺槐林年平均土壤储水量比高密度刺槐林年平均土壤储水量绝对值高7.49mm,且低密度刺槐林达到土壤适宜储水量的天数比高密度刺槐林多60d;(2)从土壤剖面的垂直方向看,高密度和低密度刺槐林对30—150cm土层土壤水分消耗量无明显差异,但高密度刺槐林对表层土壤(0—30cm)的消耗远大于低密度刺槐林;(3)综合考虑不同降雨强度下土壤水分恢复程度、降雨补偿土壤深度等指标,研究区高密度刺槐林地土壤水分亏缺相对较大,研究区自然降雨不足以充分补给土壤水分,而低密度刺槐林地土壤水分经降雨补给可恢复到较高的水平。总体来看,研究区低密度刺槐林地土壤水分状况较好,建议研究区刺槐林种植密度以不超过1 400株/hm2为宜。

黑龙江省作物生长季农田土壤水分分区研究

依据对农田土壤水分状况的表征程度 ,确定了包括土壤水分常数、土壤蓄水量以及土壤蓄水量盈亏值三类共计 9个指标 ,对黑龙江省农田土壤水分盈亏状况进行了较为客观的分区。分区结果表明 ,整个生长季全省呈现西亏东盈中部正常的特点 ,且依不同生长季时段和土层厚度有较大差异 ,为指导黑龙江省农业生产提供重要依据。

黑龙江省农田土壤蓄水量盈亏状况的垂直变化规律研究

以农田土壤水分实测资料为基础 ,依据农田土壤水分常数与作物生长发育的关系创建了土壤蓄水量盈亏值指标。选择 3个典型站点研究黑龙江省农田土壤水分盈亏状况的垂直变化规律 ,结果为 :海伦从表层到 5 0 cm各个土层均为盈余 ,而且随深度的增加盈余先增加后下降 ,2 0 cm处为最高值 ;泰来的土壤水分从表层到 30 cm为增加 ,之后又下降 ,而且以 2 0 cm为界将盈余区与亏缺区划分开 ;总平均来看 ,宝清土壤水分随深度呈减少趋势 ,盈余减小 。

陇东黄土旱塬区几种作物田间耗水量及土壤水分亏缺分异特征

基于陇东黄土干旱塬区轮作及复种模式田间试验土壤水分观测资料，对轮作种植下几种作物的农田耗水量、土壤贮水利用程度及土壤水分亏缺分异规律及数量特征进行了比较分析．主要结论是：在完全雨养农业生产条件下，降水年型、作物播期和生育期及作物耗水特性不同是引起作物田间耗水量、土壤贮水利用程度及土壤水分亏缺分异的主要原因；秋播冬小麦田间耗水对播前土壤贮水表现了较大的依赖性，而播前土壤贮水对春播玉米、马铃薯和谷子生长耗水的补偿效应相对较小；秋播与春播作物在农田土壤贮水利用程度及土壤水分亏缺状况方面的差异也很明显，这表现在无论干旱年还是丰雨年．秋播冬小麦对土壤贮水的利用程度显著高于春播玉米、马铃薯和谷子，而其生育期土壤水分亏缺状况则比春播玉米、马铃薯和谷子严重得多，尽管春播各作物间也存在着一定的差异．

黑龙江省农田土壤蓄水量盈亏值时空变化规律研究

利用黑龙江省33个站点近20年的农田土壤水分田间实测资料,分析得出黑龙江省农田土壤蓄水量盈亏值的时空变化规律;整个生长季全省0～50cm各层土壤蓄水量盈亏状况总体呈现东盈西亏规律。春、秋季东部盈余较大,最大盈余与亏缺之差值较大;夏季不仅呈现东盈西亏规律,且亏缺区域面积增大,程度加重,最大盈余与亏缺之差值缩小。土壤深墒相对稳定。土壤蓄水量盈亏值的垂直变化依据土壤质地的不同而呈现不同规律。

利用土壤蓄水量研究区域农田土壤水分时空分布状况

在农田土壤水分实测资料的基础上，以土壤蓄水量为指标研究了黑龙江省区域农田土壤水分的地理分布特征、垂直分布特征、随生长季的变化规律以及盈亏状况。

干旱区春玉米生长对持续干旱的响应机制

干旱限制作物生长发育和产量形成,要科学解除干旱,需明确作物受旱开始时间和对干旱的响应机制。本文以春玉米“科河28号”为材料,设置正常灌溉和持续干旱两种处理,探求干旱区大旱年干旱发生发展过程中春玉米生长受限和干旱胁迫的早信号、显著影响期及土壤水分阈值。结果表明:(1)捕捉大旱年干旱对田间指标影响的早信号,试验处理21 d叶片含水率开始减小,试验处理28 d影响株高和叶面积增长,试验处理32 d影响叶片干物质积累。(2)解除持续干旱产生不可逆影响的时间,株高、叶面积、各器官干物质积累和含水率分别在试验处理49、56、63 d和70 d;最小土壤贮水量为74.6、69.0、58.0 mm和56.5 mm,最大土壤水分亏缺量为30.4、37.8、47.2 mm和43.6 mm。(3)持续干旱对春玉米干物质积累和含水率的影响,叶片>叶鞘>茎>穗,且持续干旱造成经济产出小。(4)持续干旱对田间指标的影响效果为:拔节期显著,抽雄期最大,乳熟期出现负增长。(5)持续干旱对产量构成的影响:与正常灌溉相比,果穗长减小70%,果穗粗减小45%,秃尖长增大33%,百粒重减小73%,株子粒重减小84%,理论产量减小85%。(6)干旱持续21 d是春玉米受旱早信号,49 d是影响不可逆期。春玉米三叶~七叶期和灌浆后期少灌水或不灌水对产量影响较小,拔节水、抽雄水是保障产出的关键水。

陕北地区不同纬度带人工刺槐林土壤水分特征研究

为研究黄土高原地区人工刺槐林地土壤水分变化特征,对陕北地区不同纬度带30a人工刺槐林林下土壤剖面水分条件进行研究,以期探索该区域刺槐林地土壤水分含量及相关因素的响应规律,结果表明:土壤水分含量随土层深度的增加而降低,且在40—50cm深处出现水分显著降低的跃变点;淳化以北5个样地土壤水分均低于生长阻滞水分含量,存在不同程度的亏缺,处于砂壤带的榆林、神木以及轻壤带的绥德样地其土壤水分亏缺度均超过50%,呈严重亏缺;随着纬度的增加,土壤累积储水量与净降雨量均呈现降低的趋势,且两者的变化显著相关,说明不同的纬度带特征是造成土壤水分差异显著的主要原因。

淮北地区干旱胁迫对冬小麦不同土壤中生长及水分利用效率影响与差异性分析

为探究不同干旱胁迫在各生育期中对冬小麦在砂姜黑土和黄潮土中生长发育的影响与差异,基于2022年五道沟水文实验站桶栽干旱试验,在冬小麦返青-拔节、拔节-抽穗、抽穗-乳熟期进行水分控制,设置轻旱、中旱、重旱3个胁迫水平及全生育期无旱对照(CK),分析各生育阶段不同干旱胁迫对冬小麦在砂姜黑土和黄潮土中株高、耗水量、产量、水分利用效率(WUE)的影响与差异。结果表明:①两种土壤冬小麦各生育阶段受旱影响下,株高小于对照组,重旱对株高的抑制最显著,拔节-抽穗期受旱对株高造成持续抑制影响;收获时黄潮土各处理株高均低于砂姜黑土,但干旱影响下,黄潮土各生育阶段受旱组株高抑制水平均小于砂姜黑土。②两种土壤各生育阶段耗水量随干旱加重而减少,重旱减少趋势最显著,且耗水量减少均会使总耗水量低于对照组,但黄潮土各受旱组基于对照减少水平均小于砂姜黑土。③两种土壤随干旱加重减产加剧,砂姜黑土各处理组产量均大于黄潮土,但黄潮土返青-拔节期、拔节-抽穗期相比砂姜黑土有一定抗旱能力;抽穗-乳熟期,砂姜黑土抗旱能力优于黄潮土。④各处理砂姜黑土WUE均高于黄潮土,抽穗-乳熟期差距最显著,该生育阶段受旱对黄潮土冬小麦的影响比砂姜黑土更大。

陕北黄土区雨季后山地枣林土壤水分动态变化研究

选取陕北延川县齐家山红枣试验基地枣林地、苹果林地和撂荒草地为研究对象进行土壤水分动态变化研究,结果表明:①不同坡位、不同坡向和不同整地方式的枣林地土壤水分存在显著差异;其中,研究区下坡位土壤水分最高,为14.19%;阴坡土壤水分最高,为14.19%;水平阶整地枣林土壤水分显著高于原状坡。②研究区不同植被类型间土壤水分垂直变化趋势基本一致。枣林地土壤水分最高,为11.49%;[JP+1]不同植被类型0~100 cm土壤贮水量依次表现为枣林地(144.76 mm)>苹果林地(124.19 mm)>撂荒草地(72.20 mm)。③不同植被类型土壤贮水亏缺度存在差异。雨季前,0~20 cm土层亏缺度最小,平均亏缺度表现为撂荒草地>枣林>苹果林;雨季后,土壤水分亏缺度表现为撂荒草地>苹果>枣林,除枣林地外均高于雨季前土壤水分亏缺度。④雨季后,研究区3种植被类型0~20 cm土层土壤水分亏缺加剧;20~100 cm土层中,枣林土壤贮水补偿度为正值,土壤水分得到补偿,但最高仅为22.95%,枣林土壤水分仍处于亏缺状态并未完全恢复;苹果林地土壤贮水补偿度则为负值,表明土壤水分亏缺进一步加剧;撂荒草地土壤水分补偿度基本维持在0左右,土壤水分亏缺没有持续恶化。

The dynamics variation of soil moisture of shelterbelts along the Tarim Desert Highway

We studied the variation of soil moisture as well as its regularity over the irrigation cycle at shelterbelts along the Tarim Desert Highway at different site types and different planting years. The results show that: (1) There is an obvious temporal variation of soil moisture within a typical irrigation period in shelterbelts along the Tarim Desert Highway, and the soil water storage varied linearly with the number of days after irrigation. Along the direction perpendicular to the soil top, the soil profile can be divided into four layers and each shows different dynamics of soil moisture variation, including the quickly changing layer (0—20 cm), the active layer (20—60 cm), the weakly layer (60—100 cm), and the regulated layer (under 100 cm). (2) Both the soil moisture and soil water content decreased gradually with the number of planting year, while the soil water deficit increased. It indicates that shelterbelts along the Tarim Desert Highway can retain the water accumulated from previous years. (3) The soil water storage of harden sand is the maximum among all types of sites. Specifically, it is about 1.58 times higher than that of longitudinal dune, 1.15 times higher than clay, and 1.43 times higher than flat sand. Its soil water deficit was over 900 mm.

花石崖不同植被类型土壤水分特征

为充分了解黄土高原不同植被类型与土壤水分之间的关系,选择陕西省神木市花石崖镇5种典型植被类型刺槐、木枣、侧柏、柠条和草地为研究对象,采用单因素方差分析法比较不同样地间土壤水分的差异性。结果表明:在0~100 cm土层,研究区不同植被类型间土壤含水量和土壤蓄水量均存在显著性差异(P<0.05),均表现为草地>柠条>木枣>侧柏>刺槐。不同植被类型平均土壤水分亏缺度表现为刺槐>柠条>侧柏>木枣>草地,其中只有草地土壤水分不存在亏缺。综上,处于自然恢复状态下的草地对研究区土壤水分的维持具有相对积极的意义。

土壤粒径分形维数与土壤水分亏缺度和补偿度相关性分析

土壤水分亏缺度与补偿度是人工林水分管理的重要依据,对林分结构与密度调控具有指导意义。为了探寻更简便的指标表征土壤水分亏缺度与补偿度,笔者选择黄土高原最常见的刺槐林地、油松林地、侧柏林地,通过计算不同土层深度的土壤水分亏缺度与补偿度、土壤颗粒组成与分形维数,分析了土壤粒径分形维数与土壤水分亏缺度和补偿度之间的相关性。结果表明,刺槐林地、油松林地、侧柏林地的土壤水分亏缺度均超过63%,土壤水分严重亏缺;而土壤水分补偿度均较小,分别为4.79%,19.48%,31.12%.不同林地土壤水分亏缺度之间差异较小,且与气候、土壤颗粒组成有关;而不同林地的土壤水分补偿度之间存在显著差异,且与土壤颗粒组成的相关性较大。分形维数不仅可以很好地表征土壤粒径分布特征,也能够相对准确地衡量土壤水分亏缺度和补偿度。