古尔班通古特沙漠生物结皮不同发育阶段中藻类的变化

通过在古尔班通古特沙漠南缘相同的地貌部位,选择裸沙、藻结皮、地衣结皮和苔藓结皮4种不同演替阶段中的生物结皮,研究了藻类的种类组成、优势种和生物量的变化.结果表明:(1)在结皮的不同演替阶段,藻类种类组成不同,其常见物种有一定的差异,如裸沙中藻类常见种是脆杆藻2(Fragilaria sp.2)、威利颤藻(Oscillatoria willei)和奥克席藻(Phormidium okenii),藻结皮的常见种是小聚球藻(Synechococcus parvus)、颗粒常丝藻 (Tychonema granulatum)、韧氏席藻(Phormidium retzli);同时在不同发育阶段亦存在一些特有种.(2)在裸沙发育到成熟生物结皮的过程中,藻类的优势物种也发生相应的变化.裸沙、藻结皮、地衣结皮和苔藓结皮的优势种分别是脆杆藻1(Fragilaria sp.1)、具鞘微鞘藻(Microcoleus vaginatus)、具鞘微鞘藻、眼点伪枝藻(Scytonema ocellatum)或集球藻(Palmellococcus miniatus).(3)藻类生物量在生物结皮不同演替阶段差异极显著(P<0.01),在裸沙中藻类生物量最低,随着生物结皮的逐渐发育,藻类生物量明显升高,地衣结皮最高,约是裸沙的8.3倍,当发育至苔藓结皮时,藻类生物量又有所下降.(4)在裸沙中基本为松散的沙粒,随着生物结皮的演替,丝状种类占明显的优势,尤其是具鞘微鞘藻,另外真菌菌丝和苔藓假根分别在地衣结皮和苔藓结皮中起着重要作用.     

Progress in the study of algae and mosses in biological soil crusts

Algae and mosses are not only two of the familiar communities in the process of desert vegetational succession,but also have the highest biomass in biological soil crusts.Meanwhile,being the pioneer plants,algae and mosses are involved in the establishment of biological soil crusts,which have great importance in arid environments and play a major role in desert ecosystems,such as being the indicator of the vegetation type,soil-holding,preventing erosion by water and wind,and sand fixation.This paper reviews the advances in the study of algae and mosses in arid and semi-arid areas.It mainly describes the ecological functions of algae and mosses including their influences on water cycle,circulation of substances,and community succession.In addition,the relationships between algae and mosses are discussed.Finally,some suggestions are proposed for the research orientations of algae and mosses in biological soil crusts.Ecologically,algae and mosses have significant ecological importance in arid areas,especially in those areas where environmental problems are becoming increasingly serious.     

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.     

Tolerance of soil algae and cyanobacteria to drought stress

Tolerance to drought stress in soil crust microorganisms is essential for exploiting suitable organisms for restoring soil. In this study, the responses to drought stress of two drought‐tolerant species, a green alga and a cyanobacterium, were compared with those of two non‐tolerant green algae. In response to drought stress, induced by treatment with polyethylene glycol, the intracellular proline levels increased and were associated with increases in malondialdehye, pigment contents, and enzyme activities such as superoxide dismutase (SOD) and peroxidase (POD). Our results suggest that tolerance to drought stress could be indicated by the intracellular levels of proline, SOD, and carotenoids. This study provides insights into the drought physiology of the photosynthetic microorganisms and suggests that Leptolyngbya boryana and Chlorella vulgaris are suitable pioneer organisms for soil restoration.     

古尔班通古特沙漠藻类结皮中微生物群落空间分异特征

古尔班通古特沙漠短命和旱生植物在沙漠东西走向上形成明显的种群变化梯度,那么沙漠藻类结皮土壤中微生物是否也具有类似地空间分布特征?为研究该科学问题,采用高通量测序技术,探究沙漠东西走向上藻类结皮土壤中细菌和真菌群落结构分布规律。在古尔班通古特沙漠西部、中部和东部区域分别采集藻类结皮土样,进行土壤理化因子分析及细菌和真菌扩增子测序,对比不同区域土壤理化性质和微生物群落空间分异特征,分析微生物多样性与环境因子相关性,最后根据微生物物种种类对其功能进行预测分析。结果表明：藻类结皮土壤氮素、全磷、全钾、pH以及土壤化学计量比碳磷比(C∶P)和氮磷比(N∶P)在沙漠不同区域存在显著性差异,其余指标空间尺度上变化梯度较小。微生物α多样性结果显示3个区域藻类结皮土壤中细菌群落丰富度和多样性存在显著性差异,东部与西部区域产生明显分化;而真菌α多样性指数无显著性差异,群落结构较为均匀,未产生分化。β多样性结果显示细菌群落在西部与东部藻类结皮间存在显著性差异,沙漠中部为沙漠西部和东部的过渡带。门水平细菌优势菌群为蓝藻门、变形菌门和拟杆菌门;真菌为子囊菌门和担子菌门。属水平上,丰度前30个属在沙漠不同区域表现...     

荒漠藓类植物齿肋赤藓对4年积雪深度变化的生理生化响应

冬季降雪作为古尔班通古特沙漠最主要的降水形式,在荒漠生物土壤结皮的稳定和发育发挥重要作用。全球的持续变暖和极端气候事件的频繁发生导致荒漠冬季的积雪格局发生重大变化。荒漠藓类植物作为荒漠重要地被类型生物土壤结皮的重要组成成分,在生理生化层面将如何响应长期的积雪深度变化还不清楚。因此,通过野外设置去除积雪(-S)、自然积雪(S)、2倍积雪(2S)和3倍积雪(3S) 4个积雪梯度,探讨经历4年积雪深度变化下齿肋赤藓(Syntrichia caninervis)的生理生化特征。结果表明,积雪深度变化显著影响了齿肋赤藓的植株含水量、最大光化学量子产量(F_v/F_m)、实际光化学效率(Y(II))、渗透调节物质含量和抗氧化酶活性。与去除积雪处理相比,随着积雪深度的增加,齿肋赤藓的植株含水量、F_v/F_m和Y(II)呈现增加趋势,而植株内的游离脯氨酸、可溶性蛋白、可溶性糖、丙二醛(MDA)含量和超氧化物歧化酶(SOD)、过氧化物酶(POD)及过氧化氢酶(CAT)活性呈现降低趋势。相关性分析显示,齿肋赤藓的F_...     

人工蓝藻结皮对沙区表层土壤酶活性及其恢复速率的影响

土壤酶是土壤养分循环的重要参与者,也是反映土壤功能的重要指标之一。人工生物土壤结皮(Biological Soil Crusts, BSCs)是近年来新型的固沙技术之一,能够显著促进荒漠生态系统功能的恢复。然而,目前关于人工BSCs如何影响沙区土壤酶活性及恢复速率的研究仍鲜见报道。通过对腾格里沙漠东南缘人工培育以及自然发育的蓝藻结皮和流沙表层(0—2 cm)土壤酶活性(蔗糖酶、纤维素酶、淀粉酶、过氧化氢酶)以及BSCs的基本特征(叶绿素a和胞外多糖)进行测定,探讨了人工蓝藻结皮表层土壤酶活性的变化与恢复速率以及土壤酶活性与人工蓝藻结皮基本特征的关系。结果表明：人工蓝藻结皮表层土壤蔗糖酶(13.03—20.51 mg d^-1 g^-1)、纤维素酶(45.60—47.20 mg d^-1 g^-1)、过氧化氢酶(12.43—23.31μmol d^-1 g^-1)和淀粉酶活性(91.04—153.93 mg d^-1 g^-1),...     

Photosynthesis of the cyanobacterial soil-crust lichen Collema tenax from arid lands in southern Utah, USA: role of water content on light and temperature responses of CO2 exchange

1. The gelatinous cyanobacterial Collema tenax is a dominant lichen of biotic soil crusts in the western United States. In laboratory experiments, we studied CO₂ exchange of this species as dependent on water content (WC), light and temperature. Results are compared with performance of green-algal lichens of the same site investigated earlier.
2. As compared with published data, photosynthetic capacity of C. tenax is higher than that of other cyanobacterial and green-algal soil-crust species studied. At all temperatures and photon flux densities of ecological relevance, net photosynthesis (NP) shows a strong depression at high degrees of hydration; maximal apparent quantum-use efficiency of CO₂ fixation is also reduced. Water requirements (moisture compensation point, WC for maximal NP) are higher than that of the green-algal lichens. Collema tenax exhibits extreme 'sun plant' features and is adapted to high thallus temperatures.
3. Erratic rain showers are the main source of moisture for soil crusts on the Colorado Plateau, quickly saturating the lichens with liquid water. High water-holding capacity of C. tenax ensures extended phases of favourable hydration at conditions of high light and temperature after the rain for substantial photosynthetic production. Under such conditions the cyanobacterial lichen appears superior over its green-algal competitors, which seem better adapted to habitats with high air humidity, dew or fog as prevailing source of moisture.