黄土丘陵区不同演替阶段生物结皮对土壤CO2通量的影响

生物结皮是土壤表面具有光合活性的致密复合层,是土-气界面CO2通量的影响因子之一.本文采用改进的Li-8100土壤碳通量测量系统,研究了黄土丘陵区退耕地上不同演替阶段生物结皮对土壤CO2通量的影响.结果表明:光照条件下,生物结皮土壤CO2通量较除去生物结皮显著下降,其中藻结皮和藓结皮分别下降了92％和305％;生物结皮对土壤CO2通量的降低程度与其生物组成和生物量有关,深色藻结皮和藓结皮土壤CO2通量较裸地分别降低了141％和484％.生物结皮土壤CO2通量的日变化呈降低-升高-降低的趋势,而裸地CO2通量日变化趋势为单峰曲线,藻结皮、藓结皮的碳吸收峰值分别出现在8:00和9:00前后,其CO2通量分别为0.13和-1.02 μmol CO2·m-2·s-1;藻结皮24 h CO2通量排放总量较裸地增加7.7％,而藓结皮减少了29.6％.生物结皮对土壤CO2通量的影响显著,在评价退耕地土壤碳循环时,应考虑生物结皮的影响.     

黄土丘陵区不同演替阶段生物结皮对土壤CO2通量的影响

生物结皮是土壤表面具有光合活性的致密复合层,是土 气界面CO₂通量的影响因子之一.本文采用改进的Li-8100土壤碳通量测量系统,研究了黄土丘陵区退耕地上不同演替阶段生物结皮对土壤CO₂通量的影响.结果表明: 光照条件下,生物结皮土壤CO₂通量较除去生物结皮显著下降,其中藻结皮和藓结皮分别下降了92%和305%;生物结皮对土壤CO₂通量的降低程度与其生物组成和生物量有关,深色藻结皮和藓结皮土壤CO₂通量较裸地分别降低了141%和484%.生物结皮土壤CO₂通量的日变化呈降低-升高-降低的趋势,而裸地CO₂通量日变化趋势为单峰曲线,藻结皮、藓结皮的碳吸收峰值分别出现在8:00和9:00前后,其CO₂通量分别为0.13和-1.02 μmol CO₂·m^-2·s^-1;藻结皮24 h CO₂通量排放总量较裸地增加7.7%,而藓结皮减少了29.6%.生物结皮对土壤CO₂通量的影响显著,在评价退耕地土壤碳循环时,应考虑生物结皮的影响.     

黄土丘陵区生物结皮对土壤可蚀性的影响

在采样分析生物结皮对土壤理化属性影响的基础上,采用EPIC模型估算与模拟降雨试验相结合的方法,研究了黄土丘陵区不同生物量、不同土壤质地和不同季节的生物结皮对土壤可蚀性(K值)的影响.结果表明:生物结皮显著降低了土壤可蚀性,生物结皮层土壤可蚀性较下层土壤降低17％;土壤可蚀性随生物结皮生物量的增加呈降低趋势,藓结皮土壤可蚀性K值较藻结皮土壤降低21％;生物结皮土壤可蚀性在不同季节因其生物活性不同而存在差异,雨季中显著高于雨季前和雨季末;不同质地土壤上生物结皮对可蚀性的影响不同,可蚀性K值为砂壤＞粉壤＞砂土;模拟降雨条件下测定表明,生物结皮的发育使土壤可蚀性较对照(下层5～10 cm土壤)降低约90％.     

黄土丘陵区生物结皮对土壤可蚀性的影响

在采样分析生物结皮对土壤理化属性影响的基础上,采用EPIC模型估算与模拟降雨试验相结合的方法,研究了黄土丘陵区不同生物量、不同土壤质地和不同季节的生物结皮对土壤可蚀性(K值)的影响.结果表明： 生物结皮显著降低了土壤可蚀性,生物结皮层土壤可蚀性较下层土壤降低17%;土壤可蚀性随生物结皮生物量的增加呈降低趋势,藓结皮土壤可蚀性K值较藻结皮土壤降低21%;生物结皮土壤可蚀性在不同季节因其生物活性不同而存在差异,雨季中显著高于雨季前和雨季末;不同质地土壤上生物结皮对可蚀性的影响不同,可蚀性K值为砂壤>粉壤>砂土;模拟降雨条件下测定表明,生物结皮的发育使土壤可蚀性较对照（下层5~10 cm土壤）降低约90%.
     

东北黑土区农田生物结皮的特征及其对表层土壤崩解的影响

于作物生长季对东北黑土区典型农田中生物结皮的发育特征(类型、物种、厚度、覆盖度、生物量)进行分析,并使用数显推拉力计测定比较了无结皮土壤与不同生物量(以叶绿素含量表征,分别为5～15、15～25、25～35、35～50 mg·g^-1)生物结皮层中土壤的崩解差异。结果表明: 1)东北黑土区农田中发育有藻和藓两类生物结皮,其中,毛枝藻和细叶真藓最为多见;藻结皮的厚度和生物量显著小于藓结皮,并总体上呈现由藻结皮逐渐向藓结皮演替的趋势。2)农田生物结皮的覆盖度、厚度和生物量与耕作扰动的频率和强度呈负相关,传统耕作农田中其平均覆盖度、厚度和叶绿素含量仅为27.8%、1.52 mm和6.49 mg·g^-1,但在免耕地中可增加至83.5%、2.74 mm和34.16 mg·g^-1。3)生物结皮显著削弱了土壤崩解作用,与无结皮土壤相比,4种生物量下生物结皮的土壤崩解速率分别显著降低了43.1%、50.1%、55.5%和59.8%,土壤最大崩解率分别显著降低了11.4%、17.7%、33.2%和36.6%。4)土壤崩解速率和最大崩解率均与生物结皮的厚度和生物量呈显著负相关,即生物结皮对土壤崩解的影响主要缘于其在发育过程中自身特性的改善及其覆盖后对表层土壤物理性质的改变。综上,随着保护性耕作技术推广后耕作扰动的减少,生物结皮在东北黑土区农田中有较高的发育潜力,它们发育后能削弱表层土壤崩解、提高土壤抗冲性,对农田土壤侵蚀防治具有积极意义。     

黄土丘陵区草本植物覆盖下生物结皮对坡面径流流速的削减作用

生物结皮是干旱半干旱地区的常见地被物,与植物共同影响坡面径流及流速。迄今鲜有研究关注植物和生物结皮共同覆盖对流速的影响,是干旱半干旱地区坡面侵蚀驱动因素研究的薄弱环节。本研究以黄土丘陵区退耕草地为对象,通过野外模拟降雨试验,研究草本植物覆盖下有无生物结皮及不同组成生物结皮(多藻少藓、多藓少藻和藓)对径流流速的影响。结果表明: 植物和植物+生物结皮覆盖显著降低了流速,植物覆盖较裸土降低70.7%,植物+生物结皮覆盖较裸土降低83.1%;植物和生物结皮共同覆盖下,植物和生物结皮对径流流速的削减效益分别为70.7%和12.4%。植物覆盖下生物结皮对流速的影响程度与其组成有关,多藻少藓结皮、多藓少藻结皮和藓结皮对流速的削减效益分别为11.5%、12.4%和19.4%。流速与藓盖度呈显著负相关,与藻盖度呈显著正相关,藓结皮盖度(x)与流速(y)的关系式为:y=-2.081x+0.03(R²=0.469)。当植物盖度一定时(40%±10%),生物结皮组成中藓盖度是影响共同覆盖坡面流速的关键因子。综上,草本植物覆盖下生物结皮有显著减缓流速的作用,且作用程度与其组成有关。表明在研究退耕草地坡面侵蚀动力机制时,生物结皮的作用应予以考虑。     

黄土丘陵区不同类型生物结皮下的土壤生态化学计量特征

生物结皮在土壤养分累积和循环中起着重要作用.本研究以黄土丘陵区浅色藻结皮、深色藻结皮、藻藓混合结皮、藓结皮、地衣结皮和普通念珠藻结皮6类典型生物结皮为对象,分析不同类型生物结皮土壤碳(C)、氮(N)、磷(P)含量及其化学计量学特征,研究不同类型生物结皮对土壤养分的影响.结果表明:不同类型生物结皮土壤C、N、P、C/N、C/P、N/P差异显著;生物结皮层C、N、P、C/N、C/P、N/P均显著高于0~10 cm土层土壤.6类生物结皮土壤C、N含量均随土层加深而下降,P含量受土层深度影响较小.对于生物结皮层,藓结皮C、N、P含量分别为27.07、2.42、0.67 g·kg^-1,显著高于其他类型生物结皮.念珠藻结皮的0~2 cm土层土壤C、N、P、C/N、C/P、N/P显著高于其他类型生物结皮.     

混合生物结皮对土壤养分的影响与群落结构之关联——以黄土丘陵区的生物结皮为例

自然条件下生物结皮是藻、藓及地衣等结皮类型以不同比例组成的混合群落，显著影响土壤养分含量，目前混合生物结皮对土壤养分的影响与其群落结构的关系尚不清楚，限制了混合生物结皮土壤养分的评估。为此，研究通过测定单一组成的藻结皮、藓结皮以及80%藻+20%藓、60%藻+40%藓、40%藻+60%藓和20%藻+80%藓4个不同藻藓比例的混合生物结皮土壤有机碳、全氮、全磷、速效磷、铵态氮和硝态氮含量，研究了混合生物结皮土壤养分与其群落结构之间的关联。结果显示：(1)藓结皮层土壤有机碳、全氮、速效磷、铵态氮和硝态氮含量显著高于藻结皮，分别高出166.4%、77.2%、55.1%、56.2%和42.2%。(2)藻藓混合生物结皮土壤有机碳、全氮、速效磷和铵态氮含量与组成和盖度等结构特征有关，可以通过单一类型生物结皮土壤养分含量与盖度加权预测混合生物结皮土壤养分储量。(3)混合生物结皮土壤有机碳、全氮、速效磷和铵态氮储量实测值(x)与预测值(y)拟合的线性函数分别为y=0.97x、y=0.96x、y=1.18x和y=0.92x。(4)混合生物结皮对全磷和硝态氮含量的影响与群落结构无关。生物结皮对下层0—5 ...     

黄土丘陵区生物土壤结皮表面糙度特征及影响因素

地表糙度是影响地表径流和侵蚀过程的重要属性.生物结皮在干旱半干旱区广泛分布,是地表糙度的影响因子之一.本文采用链条法测定了黄土丘陵区不同发育阶段生物结皮表面糙度特征,分析了不同发育阶段生物结皮表面糙度对坡向、土壤含水量和冻融作用的响应及其与各理化性质的相关性,初步探索了生物结皮对地表糙度的影响及其相关因素.结果表明: 生物结皮显著改变地表糙度,随着生物结皮从藻结皮向藓结皮演替,其糙度先降低后增加,生物结皮发育形成10年以后,其表面糙度基本趋于稳定;研究区早期形成的藻结皮表面糙度较裸土降低47.0%,深色藻结皮(藓类盖度<20%)较裸土降低20.4%,混生结皮(藓类盖度为20%～60%)和苔藓结皮(藓类盖度>70%)表面糙度与深色藻结皮基本一致;坡向对发育10年以上的生物结皮表面糙度的影响不显著;土壤含水量影响地表糙度特征.研究区浅色藻结皮表面糙度随水分变化较为剧烈;随着生物结皮发育,深色藻结皮、混生结皮和苔藓结皮表面糙度随水分的变化趋于平缓.冻融增加了生物结皮表面糙度.浅色藻结皮经两次冻融后表面糙度增加29.7%;深色藻结皮、混生结皮和藓结皮表面糙度的影响需经过反复冻融才有所体现.生物结皮表面糙度与藓结皮盖度呈显著正相关(P＜0.1).     

黄土高原水蚀风蚀交错区生物结皮的地表粗糙度特征及其影响因素

增加地表粗糙度是生物结皮影响干旱和半干旱地区地表水文与土壤侵蚀过程的重要途径。本文针对黄土高原水蚀风蚀交错区典型小流域,使用链条法测定了裸沙、物理结皮以及不同发育阶段生物结皮(藻、藻-藓混生、藓)的地表粗糙度,比较了不同地形(坡度和坡向)和土壤条件(土壤类型和含水量)下生物结皮地表粗糙度的差异,分析了生物结皮对地表粗糙度特征的影响及其与地形因素和土壤属性的相关关系。结果表明:与裸沙相比,随着物理结皮、藻结皮以及藻-藓混生结皮的相继发育,地表粗糙度由0.67持续增加至16.76(F=194.31,P0.01);各发育阶段中,藻-藓混生结皮的地表粗糙度最高,为无结皮土壤的25倍,但由藻-藓混生结皮发育至藓结皮后地表粗糙度骤减了52.7%(仍大于裸沙和物理结皮);生物结皮的地表粗糙度在10°～30°坡度范围内差异不显著,但在30°～40°坡度下其地表粗糙度显著增加(F=10.05,P0.01),增加幅度达25.5%;且阳坡藓结皮的地表粗糙度显著高于阴坡(t=-5.70,P0.01),为阴坡的1.3倍;生物结皮的地表粗糙度随含水量变化波动较为剧烈,任意含水量下黄绵土上发育的藓结皮的地表粗糙度均高于风沙土上发育的藓结皮(F=187.16,P0.01),前者平均为后者的2.1倍;黄绵土上藓结皮的地表粗糙度与有机质含量呈显著负相关(r=-0.998,P=0.04),而与其他土壤属性的相关性不显著。综上,黄土高原水蚀风蚀交错区生物结皮的发育显著增加了地表粗糙度,其关键影响因素是生物结皮的发育阶段以及坡度和坡向。     

Response of biological soil crusts to raindrop erosivity and underlying influences in the hilly Loess Plateau region,China

Biological soil crusts (biocrusts) are ubiquitous living covers in arid and semiarid regions, playing a critical role in soil erosion control in semiarid regions. So far, research separating the multiple mechanisms of erosion control by biocrusts has been limited. It was problematic to link the influence of biocrusts to existing erosion models. In the present study, the response of biocrusts of different successional stages to raindrop erosivity and underlying influences was investigated. Using single drop simulated rainfall, the erosion controlling capacities of biocrusts were analyzed from an energetic perspective. The results showed that biocrusts caused a dramatic improvement of soil erosion resistance, which depended on species composition and increased considerably with higher succession stages. While the accumulated raindrop kinetic energy sustained by dark cyanobacterial crusts was 0.93 J (~15 times higher than that of bare soil), that of 60 % moss covered crusts reached values up to 20.18 J (~342 times higher than that of bare soil) and for 80 % moss covered crusts even 24.59 J were measured. Besides the composition and successional stages, the resistance of biocrusts to raindrop erosivity was related to the substrate soil moisture, soil texture, slope gradients and seasonal variation. The accumulated raindrop kinetic energy measured for cyanobacterial crusts was highest on silty, followed by loamy and sandy soil. For moss-dominated crusts raindrop kinetic energy was highest on sandy, followed by silty and loamy soil. Dry biocrust samples reached significantly higher accumulated raindrop kinetic energies compared to moist biocrusts, whereas the moisture content within moist crusts did not have a significant influence. Erosion resistance increased significantly with higher slope gradients. The resistance capacities of biocrusts during monsoon and post-monsoon were significantly higher than these of pre-monsoon biocrusts. Our results suggest that the influence of biocrusts can be included into erosion models from an energy point of view. The raindrop kinetic energy resistance capacity provides a potential bridge between biocrust succession and soil erodibility in commonly used erosion models.     

生物结皮与草本植物共生坡面的产流-入渗过程特征

干旱半干旱地区生物结皮与草本植物互生,发挥了重要的水土保持价值,但二者的耦合作用对坡面土壤产流-入渗过程与机理的影响尚不清楚。本研究利用人工模拟降雨试验,设计裸土、生物结皮、长芒草、长芒草+生物结皮4种坡面处理,研究生物结皮与草本植物的产流-入渗过程与径流水动力学特征。结果表明: 2个有生物结皮处理的坡面产流量变化平稳。4种处理的总产流量大小分别为:生物结皮>长芒草+生物结皮>裸土>长芒草,说明生物结皮具有抑制土壤水分入渗的作用,而长芒草可促进土壤水分入渗。在土壤深度为16和24 cm处,生物结皮处理的累计入渗量均小于长芒草+生物结皮处理,且差异显著,说明随着土壤深度增加,长芒草会减小生物结皮抑制水分入渗的作用。除了裸土坡面的弗劳德数(Fr)大于1以外,其余3种处理的Fr值小于1,属于缓流。生物结皮、长芒草和长芒草+生物结皮处理坡面的径流动能比裸土坡面分别减少83.3%、59.5%和88.1%。综上,水动力学参数的变化说明生物结皮调控径流的作用大于长芒草。     

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.     

Vascular Plants and Biocrusts Modulate How Abiotic Factors Affect Wetting and Drying Events in Drylands

Understanding how organisms control soil water dynamics is a major research goal in dryland ecology. Although previous studies have mostly focused on the role of vascular plants on the hydrological cycle of drylands, recent studies highlight the importance of biological soil crusts formed by lichens, mosses, and cyanobacteria (biocrusts) as a major player in this cycle. We used data from a 6.5-year study to evaluate how multiple abiotic (rainfall characteristics, temperature, and initial soil moisture) and biotic (vascular plants and biocrusts) factors interact to determine wetting and drying processes in a semi-arid grassland from Central Spain. We found that the shrub Retama sphaerocarpa and biocrusts with medium cover (25–75%) enhanced water gain and slowed drying compared with bare ground areas (BSCl). Well-developed biocrusts (>75% cover) gained more water, but lost it faster than BSCl microsites. The grass Stipa tenacissima reduced water gain due to rainfall interception, but increased soil moisture retention compared to BSCl microsites. Biotic modulation of water dynamics was the result of different mechanisms acting in tandem and often in opposite directions. For instance, biocrusts promoted an exponential behavior during the first stage of the drying curve, but reduced the importance of soil characteristics that accentuate drying rates. Biocrust-dominated microsites gained a similar amount of water than vascular plants, although they lost it faster than vascular plants during dry periods. Our results emphasize the importance of biocrusts for water dynamics in drylands, and illustrate the potential mechanisms behind their effects. They will help to further advance theoretical and modeling efforts on the hydrology of drylands and their response to ongoing climate change.     

Biological soil crusts (biocrusts) as a model system in community,landscape and ecosystem ecology

Model systems have had a profound influence on the development of ecological theory and general principles. Compared to alternatives, the most effective models share some combination of the following characteristics: simpler, smaller, faster, general, idiosyncratic or manipulable. We argue that biological soil crusts (biocrusts) have unique combinations of these features that should be more widely exploited in community, landscape and ecosystem ecology. In community ecology, biocrusts are elucidating the importance of biodiversity and spatial pattern for maintaining ecosystem multifunctionality due to their manipulability in experiments. Due to idiosyncrasies in their modes of facilitation and competition, biocrusts have led to new models on the interplay between environmental stress and biotic interactions and on the maintenance of biodiversity by competitive processes. Biocrusts are perhaps one of the best examples of micro-landscapes—real landscapes that are small in size. Although they exhibit varying patch heterogeneity, aggregation, connectivity and fragmentation, like macro-landscapes, they are also compatible with well-replicated experiments (unlike macro-landscapes). In ecosystem ecology, a number of studies are imposing small-scale, low cost manipulations of global change or state factors in biocrust micro-landscapes. The versatility of biocrusts to inform such disparate lines of inquiry suggests that they are an especially useful model system that can enable researchers to see ecological principles more clearly and quickly.     

Microbial inoculum production for biocrust restoration: testing the effects of a common substrate versus native soils on yield and community composition

Human activities are causing unprecedented disturbances in terrestrial ecosystems across the globe. To reverse soil deterioration in drylands, a promising tool is the ex situ cultivation of biological soil crusts, topsoil geobiological assemblages that provide key ecosystem services. One approach is to transplant biocrusts cultivated in greenhouse nursery facilities into degraded sites to accelerate recovery. Lichen‐ and moss‐dominated biocrusts have been successfully grown using a common, sandy soil. We compared the use of a common, sandy soil versus native soils as a substrate for the cultivation of cyanobacteria‐dominated biocrusts. In greenhouse experiments, we inoculated natural biocrusts collected from three Southwestern USA dryland sites on to either a common, sandy soil or on their respective native soils. The common substrate resulted in a moderate enhancement of growth yield relative to native soils. While changes in bacterial phyla composition remained low in all cases, the use of a common substrate introduced larger shifts in cyanobacterial community composition than did using native soils. The shift increase attributable to the common, sandy soil was not catastrophic—and typical cyanobacteria of field biocrusts remained dominant—unless textural differences between the common substrate and native soils were marked. Because collecting native soils adds a significant effort to growing cyanobacterial biocrusts in greenhouses for restoration purposes, the use of a common, sandy substrate may be considered by land managers as a standard practice. But we recommend to regularly monitor the composition of the grown biomass.     

黄土丘陵区生物结皮空间分布的代表性景观指数

景观指数可量化表征生物结皮的分布特征,但景观指数存在数量众多、冗余度较高的问题。本研究以位于典型黄土丘陵区的陕西省吴起县合沟小流域不同分布格局的58个样方的生物结皮为对象,计算其15个常用景观格局指数,基于相关分析、因子分析和敏感性分析,筛选出可描述生物结皮景观格局、具有特定生态学意义的代表性景观指数,并以陕西省定边县杨井镇鹰窝山涧小流域退耕地不同盖度的生物结皮为例,检验所选景观格局指数的可靠性和合理性。结果表明: 15个景观指数中,10个指数之间具有显著相关关系,而边缘长度(TE)和边缘密度(ED)分别与斑块数量(NP)、斑块密度(PD)、丛生度(CLUMPY)和散布与并列指数(IJI)无显著相关性。斑块占景观比例(PLAND)、ED、斑块连结度(COHESION)和分离度(SPLIT),分别从盖度、长度、连通度和破碎度方面描述了生物结皮空间分布特征,其代表的3个公因子在刻画生物结皮空间分布格局时累计贡献率达91.6%。本研究确定了可量化生物结皮空间分布复杂性的代表性景观指数,为研究生物结皮格局变化及其与生态过程的关系提供了理论依据。     

不同生物土壤结皮微生物组跨膜转运蛋白基因多样性及差异

【背景】跨膜转运蛋白在微生物转运各种物质的过程中具有重要作用。【目的】通过比较原核微生物组磷酸转移酶(phosphotransferasesystem,PTS)系统和腺苷三磷酸结合盒(ATP-binding cassette,ABC)转运蛋白编码基因在两种不同生物土壤结皮中(藻结皮与藓结皮)的差异,以期揭示随着生物土壤结皮的发育演替,微生物组跨膜转运物质的生物学过程中的潜在变化趋势。【方法】对腾格里沙漠东南缘的藻结皮和藓结皮12个样品进行宏基因组测序,参照KEGG数据库PTS系统,与ABC转运蛋白代谢通路进行比较并筛选相关基因,分析其差异显著性。【结果】藻结皮和藓结皮PTS系统和ABC转运蛋白编码基因的多样性一致。在生物土壤结皮中共检测到16种PTS系统的转运蛋白的编码基因,具有显著性差异的有5种;检测到106种ABC转运蛋白的编码基因,具有显著性差异的有46种,并对这46种转运蛋白结合的底物以及变化趋势进行了详细的描述。【结论】生物土壤结皮发育演替过程中,微生物组从环境中摄取能够增加渗透势物质的潜力总体呈现降低趋势,转运氨基酸、细胞膜和细胞壁组分的潜力总体呈现增加趋势,对于矿物离子、辅助因子、糖类和碳酸氢盐等的转运潜力总体无明显变化。需要注意的是这些转运蛋白编码基因多样性及差异与生物土壤结皮的关系还有待实验证明与解释。     

黄土高原丘陵区生物结皮土壤的斥水性

采用滴水穿透时间法和酒精溶液入渗法,研究了黄土高原丘陵区浅色藻结皮、深色藻结皮、藻+少量藓结皮、藓+少量藻结皮、藓结皮5种不同发育阶段的原状生物结皮土壤的斥水性及其与土壤含水量的关系.结果表明: 生物结皮增加了土壤的斥水性,其斥水强度和持久性均显著增加.生物结皮土壤的斥水性随生物结皮的演替逐渐降低,当生物结皮中藓类植物盖度在20%以上时,斥水持久性显著低于藻结皮.生物结皮土壤的斥水性与土壤含水量及优势种密切相关,藓类生物结皮土壤的斥水性随着含水量的降低逐渐增加,藻类生物结皮土壤的斥水性随含水量的变化呈双峰曲线.     

生物土壤结皮演替对土壤生态化学计量特征的影响

生物土壤结皮(生物结皮)是干旱半干旱地区重要的地表覆被物,能够固定碳氮,影响养分循环,从而可能引起土壤化学计量特征的变化。以黄土丘陵区不同演替阶段生物结皮为研究对象,研究该区生态恢复初期生物结皮演替对土壤碳(C)、氮(N)、磷(P)含量及其化学计量特征的影响。结果表明:(1)生物结皮显著增加了生物结皮层C、N、P含量,后期藓结皮较初期藻结皮C、N、P含量分别增加了161%、127%和9%,均显著高于其下0—10 cm土壤;(2)土壤C/N随着生物结皮演替变化较小,范围为10.0—11.8,C/P和N/P在演替后期分别是初期的2.4倍和2.1倍,均显著高于其下0—10 cm土壤;(3)生物结皮土壤C/N、C/P与N/P受坡向影响较大,并与藓生物量显著正相关,与土壤容重显著负相关;(4)生物结皮显著影响土壤C、N、P含量及其化学计量特征,使生物结皮层显著不同于其下层土壤及裸地;(5)生物结皮演替加速表层土壤养分恢复,影响程度可至其下2 cm土层。研究初次从土壤化学计量特征的角度揭示生物结皮对土壤养分循环的贡献,对干旱半干旱地区生态修复和管理具有指导意义。