贵州草海湿地不同水位梯度土壤碳、氮、磷含量及其生态化学计量比分布特征

对贵州草海湿地4种水位梯度下(农田区、过渡区、浅水区和深水区)表层土壤(0~10 cm)碳、氮、磷含量及其生态化学计量比进行研究,以期揭示草海湿地不同水位梯度下土壤碳、氮、磷生态化学计量比的分布特征及其影响因素.结果表明:土壤总有机碳(TOC)、总氮(TN)及总磷(TP)含量在不同水位梯度之间均差异显著,由过渡区至深水区,土壤TOC及TN含量均呈递增趋势,而TP含量呈先降低后增加的趋势;农田区土壤TN含量显著高于浅水区,但深水区土壤TP含量显著低于农田区.不同水位梯度土壤碳氮比(C/N)、碳磷比(C/P)和氮磷比(N/P)也存在显著差异,由过渡区至深水区,土壤C/P和N/P均呈递增趋势,而C/N呈先增加后降低的趋势;与过渡区相比,农田区土壤C/N、C/P和N/P总体偏低.相关性分析表明:土壤C/N、C/P和N/P的空间分布与土壤TOC、TN、含水量等理化性质有关.可见,草海湿地水位变化对土壤TOC、TN和TP含量以及C/N、C/P及N/P的空间分布具有显著影响,且水位升高有利于增强土壤碳、氮、磷的固存潜力.     

洞庭湖荻-苔草群落交错带植被动态及影响因子——以北洲子洲滩为例

近年来,受全球变化及高强度人类活动的影响,洞庭湖湿地群落分布带不断下移,引发了人们对其湿地服务功能下降的担忧.以洞庭湖北洲子洲滩为例,采用野外样带调查和室内分析相结合的方法,对洞庭湖湿地荻-苔草群落交错带植被和环境特征进行研究,以期揭示荻-苔草群落交错带动态变化和影响其变化的关键环境因子.结果表明:土壤含水量随高程增加呈逐渐降低的趋势,土壤总碳、总氮、总磷含量和p H值在样带间差异显著,但土壤电导率和总钾含量在样带间无显著差异.各样带物种丰富度和香农指数随高程增加整体上呈先降低再增加的趋势.荻生物量随高程增加呈逐渐增加的趋势,而苔草生物量呈先增加后减少的趋势.典型相关分析表明,土壤含水量与二者生物量及群落丰富度、多样性间具有很好的相关性,表明土壤含水量是调控该群落交错带植被动态变化的关键环境因子.     

洞庭湖湿地3种典型植物群落土壤酶活性特征

调查了洞庭湖湿地典型植物群落(短尖苔草(Carex brevicuspis)、南荻(Triarrhena sacchariflora)、辣蓼(Polygonumhy dropiper))洪水期前后(5、10月)两次表层土壤酶活性及土壤养分性状.结果表明:3种典型群落之间具有明显的土壤养分性状及土壤酶活差异.辣蓼群落具有相对较高的土壤有机质、全氮、全磷、速效磷含量,短尖苔草群落次之,而南荻群落的土壤养分含量最低.3种典型植物群落的土壤有机质、全氮、全磷含量均表现为5月高于10月,土壤速效磷、速效钾洪水期前后无显著差异.辣蓼群落的蔗糖酶活性明显高于其他2个群落;3个群落脲酶活性均表现为10月高于5月,南荻、辣蓼群落有显著差异.磷酸酶以南荻群落最高,短尖苔草群落5月显著高于10月,南荻群落则10月显著高于5月;短尖苔草、南荻群落过氧化氢酶活性显著高于辣蓼群落,短尖苔草群落5月与10月间有显著差异,其余2个群落无显著差异.相关分析表明:脲酶活性与土壤养分含量关系不密切;蔗糖酶活性与土壤有机质、全磷、全氮及速效磷素含量均呈显著正相关.总体上,洞庭湖典型湿地植物群落显示了较为明显的土壤理化状况以及土壤酶活差异;同时也显示了季节性差异.相对而言,辣蓼群落土壤具有较快的物质循环与转化代谢速率,对于氮、磷等污染物具有较高的转化作用,而短尖苔草、南荻群落低于辣蓼群落,这可能与二者较低的土壤有机质以及氮磷养分积累有关.     

不同水位和竞争模式对典型湿地植物生态化学计量特征的影响

以洞庭湖典型湿地植物辣蓼为目标植物,短尖苔草为邻近植物,通过控制实验研究不同水位(30、0和-30 cm)和竞争(无竞争、全部竞争、地上竞争和地下竞争)模式下目标植物生长及生态化学计量特征的变化.结果表明:水位处理显著影响不同竞争模式下的生物量积累,辣蓼生物量随水位增加显著降低;-30 cm水位无竞争模式下生物量最大,为10.84±1.52 g.在30 cm和0 cm水位梯度下,不同竞争模式下的生物量间无显著差异.但-30 cm水位下,地下竞争模式下的辣蓼生物量积累较全竞争模式和地上竞争模式下显著增多,说明非胁迫条件下,辣蓼和苔草的竞争以地上竞争为主.水位处理对辣蓼叶片、茎和根的氮、磷含量影响显著,30 cm水位下,叶片氮、磷含量显著高于其他水位下的含量.在-30cm水位下,叶片C∶N和C∶P显著高于其他水位下的比值,分别为48.08±3.85、590.3±43.4.相比于对照处理(无竞争),竞争作用下的辣蓼总氮含量降低,而C∶N值增加,N∶P值降低,这可能是因为竞争作用导致辣蓼对氮的吸收减少所致.     

三峡库区消落带不同水位高程植被和土壤特征差异

植被和土壤是消落带生态系统的重要组成部分.本研究选择三峡库区腹地忠县境内的3个地质地貌和土地利用历史相似的近自然消落带,对不同水位高程(160 m和170 m)植被群落和土壤特征进行研究,结果表明:一年生草本在消落带植物物种数中比例高达72.4%,而多年生草本仅为27.6%;不同水位高程植被物种组成完全相同,且盖度、生物量、生物多样性指数均没有显著差异;随着水位高程变化,群落优势物种存在一定差异,即160 m高程优势种为多年生狗牙根(Cynodon dactylon),而170 m高程为一年生白酒草(Conyza japonica);土壤容重、含水量、pH、有机质、总氮、总磷在160 m和170 m水位高程间均没有显著差异.因此,160 m和170 m水位高程在淹水时间和深度上的差异造成群落优势种的不同,而对当前植被和土壤特征并没有显著影响.     

入湖河口湿地四种植物群落类型的土壤氮素空间分布特征

对江苏省溧阳市大溪水库的洙漕河河口湿地中香蒲、水蓼、灯心草和芦苇四种植物生物量、氮含量及植物群落的土壤氮素分布特征进行研究,结果表明:四种植物地上生物量、地上组织氮含量、地下生物量、地下组织氮含量存在显著差异;土壤烧失量(LOI)、总氮(TN)、硝态氮(NO₃^--N)在垂直分布上表现为由表层向下减少的总体分布趋势,铵态氮(NH₄⁺-N)浓度的剖面变化呈现先减少后增加的趋势;四种植物群落土壤氮浓度各不同,但均大于对照,以有机氮为主,说明湿地具有一定的储氮能力;不同的植物群落影响湿地氮素的分布.相关性分析显示,土壤LOI与TN、NO₃^--N和NH₄⁺-N均存在极显著相关性,无机氮构成比例较小,仅为1.41%,表明土壤中的氮素主要以有机氮的形式存在;土壤氮浓度与植物生物量及组织氮含量相关性不大,说明土壤氮形态浓度不仅受到植物生长的影响,同时也可能受到植物根区环境、微生物数量与活性等的影响.     

三峡水库消落区典型草本植物氮、磷养分计量特征

为明确消落区土壤养分对植物生长的影响,通过室内栽培试验,研究三峡库区秭归消落区土壤3种氮磷水平下4种草本植物—鬼针草(Bidens pilosa)、苍耳(Xanthium sibiricum)、水蓼(Polygonum hydropiper)、藜(Chenopodium album)长势及氮、磷计量特征.结果表明,消落区土壤中生长的植物氮含量为7.98~19.4 mg/g,磷含量为0.740~3.880 mg/g,氮磷比为3.48~13.70,判别植物生长受氮限制.外源氮磷的添加促进植物氮、磷含量明显升高,但氮磷比没有明显变化;外源氮磷添加解除植物受氮的限制作用.4种植物对消落区土壤低氮环境具有一定的适应能力.比较消落区土壤中4种植物长势,鬼针草生物量、相对生长率、根茎生物量比最高,氮磷养分丰富对鬼针草生长促进作用最明显,表明鬼针草更易于在氮、磷贫乏的三峡库区消落区形成优势群落.     

洞庭湖洲滩土壤种子库对土壤水分变化的响应

由于三峡大坝及上游水库群的运行,长江中下游水域水文节律随之发生了改变,导致洞庭湖枯水期提前,进而影响洞庭湖洲滩植被及其土壤种子库的分布格局.本研究在洞庭湖4个自然保护区内选取共11个典型洲滩湿地,沿由水到陆方向根据植被类型将洲滩分为泥沙洲滩、泥沙—湖草洲滩过渡带、湖草洲滩、湖草—南荻洲滩过渡带、南荻洲滩5种洲滩类型.通过样带—样方法调查和采样,并结合湿润和水淹两种条件下的土壤种子库萌发实验,分析了土壤水分变化对洲滩种子库萌发特征的影响及土壤种子库与地表植被的关系.结果显示:①土壤含水量沿水到陆方向由泥沙洲滩向南荻洲滩递减;②不同类型洲滩土壤种子库密度没有显著差异;③温室萌发实验中,水淹条件下土壤种子库物种丰富度和种子库密度显著降低,东洞庭湖自然保护区土壤种子库物种丰富度和种子库密度较高;④地表植被物种丰富度高于土壤种子库,泥沙洲滩土壤种子库与地表植被物种组成的Jaccard相似性指数最低.此外,虉草(Phalaris arundinacea)、芦苇(Phragmites communis)、南荻(Miscanthus sacchariflorus)等只在地表植被中存在,而陌上菜(Lindernia procumbens)、通泉草(Mazus japonicus)等只在种子库中存在.结果表明,在进行湿地植被恢复时,不能仅依靠种子库移植技术,还要考虑湖区季节性的水位变化以及个别物种的特异性,配合有针对性的水文调控机制及相关的人工措施恢复其原有植被.     

鄱阳湖自然保护区植被生物量时空变化及水位影响

基于时间序列Moderate Resolution Imaging Spectroradiometer(MODIS)植被指数,结合野外实测生物量及水文气象等数据,分析了2001 2010年退水期鄱阳湖国家自然保护区湿地植被生物量的空间格局及其时间变化规律,并在此基础上探讨了水位变化的影响.研究结果表明:(1)湿地植被生物量密度多年均值处于0~1402 g/m²之间,除蚌湖四周生物量沿湖心向四周逐渐升高外,其他区域呈现南高北低的分布格局,且其分布与研究区高程密切相关;(2)湿地植被生物量密度多年均值在退水初期为901 g/m²,随时间变化先上升后降低;植被分布面积则随着滩地出露而逐渐增大,随后基本稳定;总生物量呈现单峰变化,在11月初达到最高值.2001 2010年研究区年均生物量变化呈现波动状态,多年均值为18.3×10⁷kg;最高出现在2006年,达到28.2×10⁷kg,2010年最低,仅有8.37×10⁷kg;(3)年均生物量与洲滩出露天数以及植被分布面积呈显著正相关,相关系数分别为0.719和0.865.水位变化为湿地生物量变化的重要影响因素.     

水位对洞庭湖湿地4种典型沉水植物的影响

近年来,受全球变化及高强度人为干扰的影响,湿地退化严重(洞庭湖湿地枯水期提前、枯水期水位持续降低和浅水洼地减少),导致洞庭湖湿地沉水植物大面积消亡.深入研究洞庭湖低水位对沉水植物的生长影响,对指导沉水植物恢复有重要意义.以我国典型通江湖泊洞庭湖典型沉水植物为研究对象,模拟野外沉水植物主要分布区域浅水洼地水文环境,设置4个水位梯度(25、50、75、100 cm),探讨竹叶眼子菜(Potamogeton malaianus)、黑藻(Hydrilla verticillata)、苦草(Vallisneria natans)和金鱼藻(Ceratophyllum demersum)的生长、生物量和生理活性对水位变化的响应.结果显示:(1)前期底质养分含量为:总氮0.09%、总磷0.09%、总钾3.04%、碱解氮20.87 mg/kg、速效磷10.7 mg/kg、速效钾326.67 mg/kg、硝态氮6.97 mg/kg、氨氮6.59 mg/kg、有机碳1.21%、有机质2.09%,2个月后,不同水位的底质养分含量有差异,100和75 cm水池的养分含量高于50和25 cm,氨氮、有机质和有机碳含量在25 cm水位的水池较高;(2)75 cm水位适合竹叶眼子菜和黑藻生长,100 cm水位适合苦草和金鱼藻生长;(3)100 cm水位有利于竹叶眼子菜的繁殖及生物量积累,75 cm水位有利于黑藻和金鱼藻的繁殖及生物量积累,50 cm水位有利于苦草的繁殖及生物量积累;(4)100 cm水位下的沉水植物酶活性强,75和50 cm水位下的沉水植物次之,25 cm水位下的最弱.以上结果表明,4种沉水植物的生长特征和生物量积累随水位变化,在水域生态恢复中应考虑将水位控制在50~100 cm之间,这样有利于促进种群生物量和水生生态系统的恢复.     

土壤动物对鄱阳湖湿地冬季凋落物分解过程的影响

为了研究湿地土壤动物对凋落物分解速率以及对土壤养分归还的影响,于2017年11月份在鄱阳湖湿地收集苔草(Carex cinerascens)、南荻(Triarrhena lutarioriparia)和芦苇(Phragmites australis) 3种植物的凋落物,利用凋落物袋法开展原位的模拟实验研究中使用了网孔大小分别为4.5 mm(大)和0.1 mm(小)的分解袋来对比分析土壤动物的影响结果表明:不同物种之间凋落物分解速率有差异,苔草的分解速率显著大于南荻和芦苇,南荻与芦苇的分解速率差异不明显;凋落物的分解速率与凋落物总有机碳和总氮的积累量(NAI_(TOC)/NAI_(TN))呈负相关,与残余凋落物质量呈负相关,与凋落物总磷含量呈正相关;凋落物总氮含量在不同物种凋落物中差异明显,表现为苔草芦苇南荻,并且与分解速率的大小关系相对应,因此高氮植物凋落物的分解速率较快;土壤动物能够提高分解速率,促进凋落物营养元素的释放,进而调节凋落物中C、N、P元素向土壤养分库的归还过程本研究将为湿地生态系统的营养元素循环研究提供科学数据.     

Spatial explicit soil moisture analysis: pattern and its stability at small catchment scale in the loess hilly region of China

Soil moisture is essential for plant growth and terrestrial ecosystems, especially in arid and semi‐arid regions. This study aims to quantify the variation of soil moisture content and its spatial pattern as well as the influencing factors. The experiment is conducted in a small catchment named Yangjuangou in the loess hilly region of China. Soil moisture to a depth of 1 m has been obtained by in situ sampling at 149 sites with different vegetation types before and after the rainy season. Elevation, slope position, slope aspect, slope gradient and vegetation properties are investigated synchronously. With the rainy season coming, soil moisture content increases and then reaches the highest value after the rainy season. Fluctuation range and standard deviation of soil moisture decrease after a 4‐month rainy season. Standard deviation of soil moisture increases with depth before the rainy season; after the rainy season, it decreases within the 0‐ to 40‐cm soil depth but then increases with depths below 40 cm. The stability of the soil moisture pattern at the small catchment scale increases with depth. The geographical position determines the framework of soil moisture pattern. Soil moisture content with different land‐use types is significantly increased after the rainy season, but the variances of land‐use types are significantly different. Landform and land‐use types can explain most of the soil moisture spatial variations. Soil moisture at all sample sites increases after the rainy season, but the spatial patterns of soil moisture are not significantly changed and display temporal stability despite the influence of the rainy season. Copyright © 2013 John Wiley & Sons, Ltd.     

Soil moisture influenced the variability of air temperature and oasis effect in a large inland basin of an arid region

Soil moisture plays a significant role in land-atmosphere interactions. Changing fractions of latent and sensible heat fluxes caused by soil moisture variations can affect near-surface air temperature, thus influencing the oasis's cooling effect in arid regions. In this study, the framework for the evaporative fraction (EF) dependence on soil moisture is used to analyse the impacts of soil moisture variation on near-surface air temperature and the oasis effect. The result showed that soil moisture's contribution rate to EF was significantly higher than that of EF to temperature. Under the interaction of temperature sensitivity to EF and EF to soil moisture, the ∂T/∂ϴ presented a similar tempo-spatial variation with both of the above. It was most significant in oasis areas during summer (−1.676), while it was weaker in plain desert areas during the autumn (−0.071). In the study region, the effect of soil moisture variation on air temperature can reach 0.018–0.242 K for different land-cover types in summer. The maximum variation of soil moisture in summer can alter air temperature by up to 0.386 K. The difference in temperature variability between the oasis and desert areas promoted the formation of the oasis effect. For different oasis, the multi-year average oasis cold effect index (OCI) ranged from −1.36 to −0.26 K. In comparison, the average summer OCI ranged from −1.38 to −0.29 K. The lower bound of the cooling effect of oasis ranged from −4.97 to −1.69 K. The analysis framework and results of this study will provide a new perspective for further research on the evolution process of the oasis effect and water–heat balance in arid areas.     

湿地植物固体碳源养分释放动态及其对人工湿地水体脱氮效率的影响

污水低碳氮比(C/N)是影响人工湿地氮去除效果限制因素,传统的碳源添加及利用存在成本较高、补充困难的局限性. 本研究契合“就地取材,原位处理”的废物利用原则,选择人工湿地常见的水生植物和农业废弃物(玉米芯、稻草)作为对照,对比了挺水植物(香蒲、美人蕉)、浮叶植物(莲)、沉水植物(菹草)、湿生植物(南荻、短尖苔草)的释碳能力,初步确定了以香蒲、美人蕉、南荻为代表的植物具有较好的释放碳能力,在中国湿地中分布广泛,且均对水体二次污染较小. 以南荻、美人蕉、玉米芯作为碳源添加的模拟人工湿地实验验证表明,在低碳氮比的模拟表流人工湿地投入植物碳源,能有效提高系统的脱氮效率,对照组、南荻组、美人蕉组和玉米芯组的出水总氮浓度分别为(5.24±0.07)、(4.50±0.10)、(3.75±0.17)和(2.97±0.18)mg/L,对应的去除率分别为58%、64%、70%和76%,确定南荻和美人蕉植物残体以及改性材料均残体和改性材料适合作为人工湿地中原位利用的外加碳源. 本研究探索了通过湿地植物配置解决人工湿地水体低C/N比的问题,为提高湿地脱氮效果提供了有意义的新途径.     

鄱阳湖湿地中低滩典型植物群落的生物多样性及影响因子

周期性水文节律是影响洪泛湖泊洲滩湿地植物群落物种组成与生物多样性的重要驱动力。本研究以鄱阳湖中低滩典型植物群落为研究对象,通过实地样方调查与统计方法分析植物群落的生物多样性格局及其关键环境因子。结果表明：鄱阳湖中低滩代表性群落分别是灰化薹草群落和虉草群落;植物群落的Shannon-Wiener多样性指数均值为1.5,Pielou均匀度指数均值为0.55,生物多样性与物种均匀度偏低。虉草群落的均匀度、多样性指数高于灰化薹草群落,但二者物种丰富度差异不明显。土壤铵态氮、总磷及土壤含水量和高程是影响植物群落结构与生物多样性的关键因子,其中灰化薹草的物种多样性与土壤铵态氮高度相关,而虉草的均匀度则与土壤总磷关系更密切。此外,鄱阳湖中低滩环境下,灰化薹草群落的均匀度随土壤总磷含量的升高呈现U型响应曲线,虉草则是倒U型,这表明,鄱阳湖中低滩环境下,灰化薹草群落和虉草群落生物多样性对单个、同一的环境因子存在不同的适应机制。     

Differences in soil moisture in two Middle Eastern oak forests: Comparing the effects of trees and soil composition

The incidence of large rain events in Mediterranean ecosystems vary among years. Summer aridity is interpreted as a resetting event, eliminating previous soil‐moisture dynamics. The dynamics of soil moisture and retention are critical to tree survival, particularly in dry regions. This study examines the long‐term soil water content (θ_V) dynamics in two distinct locations within the forest, under the canopy and forest clearing, within two diverse oak forests: subhumid mixed oak forests (MG) and semiarid monospecific oak woodlands (YE). Plots were established at small‐scale catchments and soil water contents were measured during 2010–2013, at three depths in the two different locations. Cumulative rainfall was used as an independent proxy for θ_V analysis. A novel bell‐bilogistic mathematical model of wetting, saturation, and drying arms was developed. We aimed to study the θ_V distribution differences between soil profiles giving the large climatic gradient between the two forested sub basins, the differences in vegetation traits along with soil attributes. We further aimed at determining the role of an individual tree in regulating soil‐moisture dynamics. We hypothesized the occurrence of distinct responses between sites in all soil‐moisture indices with higher θ_V at the wetter site. We tested the hypothesis that seasonal cumulative rainfall dictates the variations in soil‐moisture regimes throughout contiguous years. Annual rainfall was higher than long‐term average throughout the study. Soil profiles under the canopies at both sites were consistently wetter. Infiltration and depletion constants were higher at MG whereas maximum soil moisture was higher at YE. Homogenous recharge patterns were seen at MG although YE evinced more variation. Oaks had no effect on recharge at MG compared with the forest clearing. Soil properties primarily affected the wetting arm whereas vegetation composition regulated the drying arm. Mixed‐stands characterized by ever‐green and deciduous species may maintain favourable soil‐moisture conditions, in comparison with other mixed stand morphologies. The increasing role of slacking forces in infiltration process may alter the interaction between trees and herbaceous vegetation.     

Investigation of soil water hydrological process in the permafrost active layer using stable isotopes

Here, we studied the isotope characteristics and source contributions of soil water in the permafrost active layer by collecting soil samples in July 2018 in Yangtze River basin. Soil moisture and temperature showed decreasing trends from 0–80 cm, and an increasing trend from 80–100 cm. The value of δ¹⁸O and δD first increased and then decreased in the soil profile of 0–100 cm; however, d-excess increased from 0–100 cm. δ¹⁸O values became gradually positive from the southwest to northeast of the study area, while d-excess gradually increased from southeast to northwest. The evaporation water line (EL) was δD = 7.56 δ¹⁸O + 1.50 (R² = 0.90, p < 0.01, n = 96). Due to intense solar radiation and evaporation on the Tibetan Plateau, the elevation did not impact the surface soil. The altitude effect of the soil depths of 0–20 cm was not obvious, but the other soil layers had a significant altitude effect. Soil moisture and temperature were closely related to the stable isotopic composition of soil water. The contribution of precipitation to soil water on the sunny slope was 86%, while the contribution of the shady slope was 84%. However, the contribution of ground ice to soil water on sunny slope was 14% and the shady slope was 16%. The contribution of ground ice to soil water increased with increasing altitude on the sunny slope, but the contribution of ground ice to soil water had no obvious trend on the shady slope.     

鄱阳湖典型洲滩湿地土壤含水量和地下水位年内变化特征

湿地植被空间分布受多个水分因子共同影响,为了探求鄱阳湖典型洲滩湿地不同植被类型下地下水、土壤水的变化特征,本文选择鄱阳湖吴城湿地保护区内一个长约1.2 km的典型洲滩湿地为实验区,建立了气象-土壤-水文联合观测系统.对观测的气象、水文要素进行分析发现:(1)洲滩湿地地下水位年内呈单峰变化,季节性差异显著,最大埋深可达10 m,出现在1月份,丰水期8月份地下水位最高时可出露地表,且地下水位与湖泊水位变化具有高度一致性;(2)由远湖区高地至近湖区低地,不同植被带中地下水平均埋深变化为藜蒿带(4.76 m)芦苇带(2.87 m)灰化薹草带(1.61 m).地下水埋深小于50 cm的持续时间分别为:藜蒿带27 d、芦苇带112 d、灰化薹草带170 d;(3)土壤平均含水量沿不同植被带梯度变化为:藜蒿带最小(15.9%),芦苇样带(40.7%)和灰化薹草样带(43.7%)较大.土壤含水量年内变幅为:藜蒿带最大(2.5%~55.2%),芦苇带和灰化薹草带相对较小,分别为22.1%~48.1%和28.4%~54.1%;(4)不同植被带土壤含水量季节变化规律不同,藜蒿带土壤含水量年内呈单峰型,仅夏季土壤含水量较高,其余季节均在10%左右,而芦苇带和灰化薹草样带春、夏、秋季均维持较高含水量(42%以上),仅冬季水分含量较低.     

The impact of natural vegetation restoration on surface soil moisture of secondary forests and shrubs in the karst region of southwest China

Soil moisture is crucial to vegetation restoration in karst areas, and climate factors and vegetation restoration are key factors affecting changes in soil moisture. However, there is still much controversy over the long-term changes in soil moisture during vegetation restoration. In order to reveal the changes in soil moisture during vegetation restoration, we conducted long-term positioning monitoring of soil moisture at 0–10 and 10–20 cm on secondary forests sample plot (SF, tree land) and shrubs sample plot (SH, shrub land) in karst areas from 2013 to 2020. The results showed that the aboveground biomass of SF and SH increased by 50% and 240%, respectively, and the soil moisture of the SF and SH showed an increasing trend. When shrubs are restored to trees in karst areas, the soil moisture becomes more stable. However, the correlation coefficients (R²) between the annual rainfall and the annual average soil moisture of SF and SH are 0.84 and 0.55, respectively, indicating that soil moistures in tree land are more affected by rainfall. The soil moisture of shrubs and trees are relatively low during the months of alternating rainy and dry seasons. Rainfall has a very significant impact on the soil moisture of tree land, while air temperature and wind speed have a significant impact on the soil moisture of tree land, but the soil moistures of shrub land are very significantly affected by rainfall and relative humidity. Therefore, during the process of vegetation restoration from shrubs to trees, the main meteorological factors that affect soil moisture changes will change. The results are important for understanding the hydrological processes in the ecological restoration process of different vegetation types in karst areas.