Effects of biological soil crusts on a Mediterranean perennial grass (Stipa tenacissima L.)

In the last decades, there has been a growing interest on evaluating the effects of biological soil crusts (hereafter, biocrusts) on vascular plants. The purpose of this paper was to investigate the influence of biocrusts on Stipa tenacissima, key species in arid and semi-arid environments of the Mediterranean Basin. In fact, we explored the impact of biocrusts removal underneath S. tenacissima on soil chemical properties and leaf mineral uptake. Indeed, we studied the effect of mixed biocrusts on the seed germination of S. tenacissima under laboratory conditions. The research showed a greater availability of soil resources correlated with enhanced leaf nutrient levels of bioessential elements in the presence of intact biocrusts compared to fragmented biocrusts underneath S. tenacissima tussocks. We suggest that this is related to the loss of soil moisture as a result of biocrusts removal. In addition, we found that mixed biocrusts favored seed germination and viability of S. tenacissima. By improving soil chemical properties and leaf nutrient uptake, biocrusts can provide enhanced growth conditions for Stipa tenacissima. These findings with the positive effect on seed germination suggest that biocrusts can be used in the restoration of S. tenacissima.     

生物结皮对古尔班通古特沙漠3种荒漠草本植物生长特性与元素吸收的影响

生物结皮有可能通过物理、水文、养分循环影响与之相邻的维管植物,但二者相互关系尚存在着争议。本文以新疆古尔班通古特沙漠广泛分布的地衣结皮为研究对象,分析了生物结皮对3种荒漠草本植物：尖喙牻牛儿苗（Erodium oxyrrhynchum）、条叶庭芥（Alyssum linifolium）和琉苞菊（Hyalea pulchella）的生长及其对元素吸收的影响。研究结果表明：（1）生物结皮对3种荒漠草本植物生长的影响在生长期不同阶段存在差异。在前期,生物结皮的存在促进了植物生物量的累积;而后期,生物结皮却抑制了植物生长。生物结皮的存在显著影响了荒漠草本植物生物量的累积和冠根比。（2）生物结皮的存在显著增加了3种荒漠草本植物对N和K的吸收,而对P的吸收没有显著影响。生物结皮对3种植物Cu、Ca、Mg、Na、Cl的吸收存在种间差异。本研究结果将为该荒漠生态系统潜在的植被演替方向提供重要的科学根据。     

温带荒漠灌丛和藓类结皮对土壤养分的贡献

灌丛与生物土壤结皮镶嵌分布是温带荒漠常见的地表景观之一,二者的发育均显著影响了地表土壤养分的空间分布特征及循环过程。然而,灌丛和生物土壤结皮对荒漠土壤表层养分的影响存在怎样的差异,二者对养分变化的贡献度如何尚不清楚。因此,选择中国北方典型温带荒漠古尔班通古特沙漠为研究区,以荒漠中的优势灌丛膜果麻黄(Ephedra przewalskii)灌丛和生物土壤结皮发育高级阶段的藓类结皮的结皮层及结皮下层土壤为研究对象,采集不同微生境(裸露地、灌丛下)的裸沙与藓类结皮的土壤样品。为探究不同微生境下不同土层碳、氮、磷和钾养分变化特征,测定了不同土层土壤有机碳(SOC)、全氮(TN)、全磷(TP)、全钾(TK)、速效氮(AN)、速效磷(AP)和速效钾(AK)含量。结果表明:(1)相较于裸露地,灌丛显著提高了藓类结皮不同土层有机碳、全氮和全钾的含量和裸沙全磷的含量,降低了灌丛下藓类结皮土壤全磷的含量。(2)对于速效养分而言,与裸沙相比,裸露地藓类结皮覆盖降低了土壤速效氮含量,增加了速效磷和速效钾含量;而灌丛下藓类结皮覆盖提高了土壤速效氮和速效钾的含量,但降低了速效磷的含量。 (3) 相关性分析显示,在0-2 cm土壤中速效磷与速效氮呈现显著负相关,而在2-6 cm速效磷与速效氮呈现显著正相关(P<0.01)。(4)贡献度分析表明,土壤中灌丛效应对养分的贡献(42.54%)要远大于藓类结皮的贡献(2.43%),但二者交互作用却降低了除速效氮以外的其他土壤养分含量。综上,灌丛、藓类结皮覆盖和土层深度变化对土壤碳、氮、磷和钾养分均具有显著影响(P<0.05),但三者间的交互效应对养分的影响不显著(P>0.05)。相对于裸露地,灌丛与藓类结皮的覆盖均对表层土壤碳、氮、磷和钾养分具有促进作用,且随着土层深度的下降,土壤养分含量呈现显著的下降趋势(P<0.05)。因此,在荒漠生态系统中耐旱灌丛与生物土壤结皮这两个最重要的斑块单元联合调控了微尺度土壤养分的空间异质性变化。     

干旱沙区生物土壤结皮对红砂种子定居的影响及作用机制

为了探清干旱荒漠区生物土壤结皮对易漂移性植物种子定居影响及作用机制,以巴丹吉林沙漠南缘结皮前期以及藻类、地衣、藓类阶段结皮为场所,通过人工补充种子与野外长期监测的方法对红砂种子在生物结皮上流失动态、种子宿存微区特征以及种子宿存量与微区面积间的关系等进行研究。结果表明：(1)生物土壤结皮发育过程中,地表枯落物、微坑、龟裂缝、长藓的面积百分比均发生了显著变化,即：枯落物呈现出增大(藻类阶段)—稳定不变(地衣阶段)—减小(藓类阶段)的趋势,微坑、龟裂缝均先增大后减小(峰值在地衣阶段),长藓持续增大。(2)4个阶段的种子流失速度或定居率两两之间存在显著差异,流失速度大小依次为：结皮前期>藻类阶段>藓类阶段>地衣阶段,定居率大小为：地衣阶段>藓类阶段>藻类阶段>结皮前期。(3)生物土壤结皮上定居的种子仅宿存于枯落物、微坑、龟裂缝、长藓上,这4种微区上定居种子数与其面积之间均存在显著正相关关系,其关系均可用二次项y=ax²+bx+c(a≠0)表示,等面积微区内的定居种子数大小依次为：龟裂缝>枯落物>微坑>长藓。因此认为,生...     

不同类型生物土壤结皮覆盖下风沙土的入渗特征及模拟

干旱荒漠区广泛分布的生物土壤结皮(BSCs)对土壤水分入渗过程有重要影响。以古尔班通古特沙漠南缘的BSCs为研究对象,基于野外采样与室内模拟实验等方法,探究藓类、地衣和藻等3种类型BSCs覆盖下沙土的入渗特征。结果表明:与无结皮覆盖的风沙土对照,3种类型BSCs均显著降低了沙土初渗速率,藓类结皮、地衣结皮、藻结皮覆盖下初渗速率降低幅度依次为36.10%、46.42%、50.39%;藓类结皮、地衣结皮(P0.05)和藻结皮(P0.05)均明显降低了沙土稳渗速率,降低幅度依次为16.50%、33.98%和35.92%;3种类型BSCs均限制了湿润锋在沙土的推进过程,表现为:藓类结皮、地衣结皮、藻结皮的渗漏时间分别为裸沙对照的2.13、3.04和2.98倍;各类型BSCs均减小了沙土累积入渗量,阻碍了沙土水分入渗,与裸沙对照相比,藓类结皮、地衣结皮、藻结皮的1 h累积入渗量分别降低16.10%、28.56%和26.56%。在实验条件下,Kostiakov模型最适用于模拟不同类型BSCs覆盖下土壤水分入渗过程,Horton模型模拟效果次之。     

Effect of microbiotic soil surface crusts on emergence of vascular plants

Microbiotic crusts are a common and widespread feature of arid and semi-arid landscapes. Their effect on vascular plant success has been discussed controversially. However, only very few field studies have yet tried to experimentally investigate the effect of microbiotic crusts on vascular plant establishment.In this study we investigate the influence of cyanobacteria dominated microbiotic soil surface crust on vascular plants in a desert sand dune area by using a series of manipulative experiments. Crusts were disturbed and removed and density response to these treatments was monitored during the two following years.Emergence densities of vascular plants were considerably higher when crusts were removed and destroyed. This effect was particularly pronounced when the disturbances were applied before the main seed dispersal period. By experimentally preventing seed dispersal into disturbed areas we could show that undisturbed crusts reduce the probability for seeds to come to rest. This indicates that soil surface roughness is a major determinant for the establishment of vascular plants in the study area. We conclude that small-scale and well-timed disturbances of microbiotic crusts in arid lands may increase vascular plant establishment probabilities. A potential feedback process of long-term vegetation dynamics is suggested: disturbance of microbiotic crusts results in higher numbers of emerging plants, which in turn represent a rough seed-trapping element leading to a further increase in densities in consecutive years.     

Nematode communities indicate diverse soil functioning across a fog gradient in the Namib Desert gravel plains

Soil nematodes are fundamentally aquatic animals, requiring water to move, feed, and reproduce. Nonetheless, they are ubiquitous in desert soils because they can enter an anhydrobiotic state that allows them to persist when water is biologically unavailable. In the hyper‐arid Namib Desert of Namibia, rain is rare, but fog routinely moves inland from the coast and supports plant and animal life. Very little is understood about how this fog may affect soil organisms. We investigated the role of fog moisture in the ecology of free‐living, soil nematodes across an 87‐km fog gradient in the gravel plains of the Namib Desert. We found that nematodes emerged from anhydrobiosis and became active during a fog event, suggesting that they can utilize fog moisture to survive. Nematode abundance did not differ significantly across the fog gradient and was similar under shrubs and in interplant spaces. Interplant soils harbor biological soil crusts that may sustain nematode communities. As fog declined along the gradient, nematode diversity increased in interplant soils. In areas where fog is rare, sporadic rainfall events can stimulate the germination and growth of desert ephemerals that may have a lasting effect on nematode diversity. In a 30‐day incubation experiment, nematode abundance increased when soils were amended with water and organic matter. However, these responses were not evident in field samples, which show no correlations among nematode abundance, location in the fog gradient, and soil organic matter content. Soil nematodes are found throughout the Namib Desert gravel plains under a variety of conditions. Although shown to be moisture‐ and organic matter‐limited and able to use moisture from the fog for activity, variation in fog frequency and soil organic matter across this unique ecosystem may be biologically irrelevant to soil nematodes in situ.     

Effects of biological soil crusts on profile distribution of soil water,organic carbon and total nitrogen in Mu Us Sandland,China

Aims Biological soil crusts (BSCs) can affect soil properties including water dynamics and cycling of soil carbon and nitrogen in dryland ecosystems. Previous research has mostly focused on effects of BSCs on soil water distribution or carbon and nitrogen fixation in the surface soil layer. Thus, little is known about effects of BSCs on properties throughout the soil profile. In the current study, we assessed the effects of BSCs on the distribution of soil water content (SW), soil organic carbon content (SOC) and soil total nitrogen content (STN) throughout the soil profile as well as the influence of water conditions on the effects of BSCs.Methods In a field investigation in Mu Us Sandland, North China, soil samples were taken from plots with and without BSCs on 13 and 28 September 2006, respectively. On the two sampling dates, average soil gravimetric water content was 3.83% (±1.29%) and 5.08% (±0.89%), respectively, which were regarded as low and high water conditions. Soil samples were collected every 5 cm to a depth of 60 cm, and SW, SOC and STN were measured in the laboratory.Important findings (i) BSCs affected profile distribution of SW, SOC and STN. In addition, water conditions within the plots significantly modified BSCs' effects on the profile distribution of SW, but marginally affected the effects on SOC and STN. (ii) Under high water conditions, SW in the surface soil layer (0–10 cm) was higher in soils with BSCs compared to those without BSCs, while the opposite was true in the deep soil layer (30–55 cm). (iii) Under low water conditions, SW was lower with BSCs compared with no BSCs in near-surface (5–20 cm) and deep (25–40 cm) soil layers. (iv) BSCs affected SOC and STN only in the surface soil layer (0–5 cm) and were modified by plot water conditions.     

不同降水条件下生物结皮覆盖对沙地土壤有机碳的影响

生物结皮是干旱半干旱地区重要的地表活体覆盖物,其通过光合固碳影响土壤有机碳、活性碳组分的含量及其稳定性。目前有关生物结皮中有机碳变化特征的研究非常有限。本研究在毛乌素沙地沿降水梯度从西北向东南选择了两类典型的生物结皮(苔藓结皮、藻结皮),直线跨度188 km,通过测定土壤有机碳(SOC)、微生物生物量碳(MBC)、可溶性有机碳(DOC)、颗粒态有机碳(POC)和易氧化有机碳(ROC),探讨生物结皮对土壤有机碳稳定性的作用及其对降水梯度的响应,并基于藓类植物凋落物分解试验解析降水变化对其碳分解过程的影响。结果表明: 1)两类生物结皮覆盖均显著提高了SOC和MBC、DOC、POC、ROC等活性碳组分含量及SOC稳定性,其中,藓结皮对SOC的提升作用为藻结皮的1.6～2.6倍。2)两类生物结皮SOC含量最低点均出现在西北样地(分别为6.43、14.50 g·kg^-1),随降水升高,SOC总体上呈现递增的趋势。3)随降水的升高,藓类凋落物所需的分解时间逐渐减少,研究期内(7月至次年2月)的分解系数在0.010～0.014,显著低于维管植物,自西北向东南3个样地藓类凋落物的碳释放量分别为8.09、10.89、12.88 g·kg^-1。4)典范对应分析显示,水蒸气分压力、实际蒸散量、年均温、地表向下短波辐射、潜在蒸散量、饱和水汽压差等是影响SOC及其活性碳组分含量的关键气候因子,粉粒含量是影响其含量的主要土壤因子。     

腾格里沙漠东南缘生物土壤结皮的固氮潜力

以腾格里沙漠东南缘广泛分布的3类典型生物土壤结皮(藻类结皮、地衣结皮和藓类结皮)为研究对象,在野外环境下连续一年(2010年6月至2011年5月)测定了不同类型结皮的固氮潜力、季节变化,及其对环境因子的响应特征.结果表明：整个试验期间,藻类、地衣和藓类结皮的固氮活性分别为14～133、20～101和4～28 mol·m^-2·h^-1,差异显著,这种差异主要是由结皮种类组成的差异所致.3类结皮固氮活性对环境因子的响应特征基本一致.3类结皮固氮活性与降水量关系不显著,但与试验前3天小于3 mm的降水量均呈显著的正相关关系,说明该地区3类结皮在3 mm降水条件下即可达到最大固氮速率.3类结皮固氮活性与试验期温度均呈显著的二次函数关系,随气温升高均呈先上升后下降的趋势,藻类和地衣结皮的固氮活性在超过30 ℃后即迅速下降,而藓类结皮的固氮活性在超过25 ℃后即开始下降,说明不同类型结皮具有不同的固氮适宜温度区间.3类结皮固氮活性的季节变化均表现为秋季>春季>夏季>冬季,夏季高温和冬季低温抑制了结皮固氮酶活性,而春末秋初适宜的水热条件促进了其固氮活性的提高,结皮固氮活性的季节变化主要受水热因子的共同调控.温带荒漠区生物土壤结皮在湿润条件下全年均具有固氮能力,环境因子对其氮固定的控制作用层次分明,水分是影响其固氮速率和持续时间的关键因子,在水分和碳源充足的条件下,温度则是制约其固氮能力的主要因子.