黄土丘陵区藓结皮人工培养方法试验研究

以陕北黄土丘陵区自然发育的藓结皮为繁殖材料,通过室内人工培养研究了藓类植物孢子繁殖法(孢子法)、植物碎片营养繁殖(断茎法)以及生物结皮团块粉碎(碎皮法)接种等不同方法对藓结皮形成发育的影响,并对不同培养温度和土壤含水量条件下的藓结皮生长发育进行比较分析.结果表明,(1)相同培养条件下,碎皮法接种有利于藓结皮盖度的形成,在20℃、光照5 230 lx、光周期12 h/d条件下,经80 d培养,藓结皮盖度、密度分别达到76%和59株/cm2,且显著高于其他方法.(2)不同的接种量对藓结皮形成发育影响显著,采用碎皮法,接种量在500～750 g/m2水平下藓结皮的盖度和藓类植物的密度生长较高.(3)温度显著影响藓结皮的形成和发育,在试验条件下,17℃有利于藓结皮盖度、藓类植株密度和株高的生长.(4)土壤含水量只有>60%田间持水量时才有藓结皮形成,当土壤含水量达到超饱和含水量,并在近地面处有水汽存在时则更有利于藓结皮的形成和发育.     

固定沙丘结皮层藓类植物多样性及固沙作用研究

 根据对沙坡头固定沙丘生物结皮的物种调查、鉴定及盖度和生物量的研究,藓类植物共2科,7属,16种,以真藓（Bryum argenteum）为优势种。随着固沙时间的延长,生物结皮中藓类和藻类总盖度呈上升趋势;沿不同年代固定沙丘坡面向上等距离梯度,藓类盖度显著下降,而藻类盖度则平稳上升。对不同年代固定沙丘生物结皮优势种真藓的生物量和固沙量的测定表明,随沙丘固定年代的增加,真藓的生物量和固沙量增加,50年代固沙区结皮层真藓生物量是944.03 kg·hm-2,固沙量是3.925×104 kg·hm-2,但固沙率随时间的增加而减少。真藓的饱和吸水量与生物量呈正相关,50年代固定沙丘藓类结皮层可吸水7.06×103 kg·hm-2,说明藓类结皮层具有很强的吸水和保水能力,对于干燥少雨的沙漠地区具有十分重要的生态学意义。     

内蒙古皇甫川流域人工林地苔藓植物结皮层物种组成与微生境形成发育特征

在野外调查基础上研究了内蒙古皇甫川流域4种人工植被中间锦鸡儿(Caragana intermedia)灌丛、杨树(Populus simonii)林、侧柏(Platycladus orientalis)林、油松(Pinus tabuliformis)林苔藓植物结皮层物种组成及微生境藓类结皮层形成发育特点。发现苔藓植物8科、15属、23种,优势种双色真藓、真藓和土生对齿藓相对盖度和占各样地苔藓植物总盖度的95%以上。真藓、双色真藓和土生对齿藓在4种人工林地最薄结皮层个体高度分别在0~(0.93±0.04)、(0.72±0.03)~(1.82±0.04)和0~(2.82±0.08)mm,种群密度在0~(11.08±0.28)、(2.30±0.23)~(20.08±0.55)和0~(29.56±1.07)株·cm-2;最厚结皮层个体高度分别在(3.23±0.09)~(6.55±0.12)、(5.99±0.08)~(11.64±0.11)和(7.71±0.11)~(22.05±0.23)mm,密度在(64.34±1.54)~(400.12±2.87)、(216.23±3.23)~(356.27±2.19)和(32.27±0.99)~(236.03±2.48)株·cm-2;结皮层厚度、优势种地上部分和地下部分高度在不同样地之间有明显变化;依据物种分布、微生境藓类结皮形成发育特点和各指标相关性分析,提出了人工促进藓类结皮形成的措施。     

贵州省茅台镇砂页岩结皮层藓类植物的生态功能

对贵州省茅台镇砂页岩结皮层藓类植物物种进行了调查,并测定了其优势植物的生物量、成土量和饱和吸水量,以了解藓类植物在水土流失防治中的作用.调查发现:藓类植物5科6属6种.优势结皮藓类植物华中毛灰藓、厚壁紫萼藓、小叶藓、真藓的生物量、成土量和饱和吸水量分别为0.5 ～104g·m-2、1.6～481 g·m-2和2.8～1987 g· m-2,其中,华中毛灰藓的生物量、成土量和饱和吸水量均远远高于其他结皮藓类,在砂页岩水土流失区域生物土壤结皮层中起着关键性的作用,对治理砂页岩水土流失具有重要的意义.     

中华缩叶藓孢子萌发与原丝体发育特征研究

通过室内人工培养中华缩叶藓的孢子,在光学显微镜下详细观察了其孢子萌发、原丝体发育及配子体发生的全过程.结果表明:中华缩叶藓的孢子在壁内萌发,随后分裂产生块状原丝体;块状原丝体上可产生两种丝状体,一种是具疣的棒状原丝体,另一种是由长圆柱状细胞组成的轴丝体;配子体原始细胞只产生于块状原丝体上.根据中华缩叶藓的孢子萌发和原丝体发育特征,并参照Nishida对藓类植物孢子萌发类型的划分,确定中华缩叶藓的萌发孢子型应属于缩叶藓型(Ptychomitrium-type).     

长尖对齿藓原丝体快速培育的关键影响因子研究

为了给苔藓结皮野外恢复的大规模接种提供丰富种源,本文利用0.1% NaClO（10、15、20、30、45、60、120 s）和0.1% HgCl₂（10、15、20、30、45、60、120 s）两种消毒液,采用Knop、MS和Hoagland 3种培养基,设置5.5、6、6.5、7、7.5、8、8.5七个水平的pH值,通过单因素试验设计方法,测定长尖对齿藓[Didymodon ditrichoides（Broth.）]茎叶体的成活率、原丝体长度和分枝数等指标,探讨影响长尖对齿藓原丝体扩繁的关键因子。结果表明：（1）消毒方式、培养基及pH均对长尖对齿藓茎叶体的成活率、原丝体长度和分枝数有显著影响（P<0.05）,影响大小依次均为消毒方式 > 培养基 > pH;（2）最适合的消毒方式为：0.1% NaClO消毒15~20 s;（3）最适合长尖对齿藓原丝体生长的培养基是Knop和Hoagland培养基;（4）最适合长尖对齿藓原丝体生长的pH是7.5。从而得出快速培育长尖对齿藓原丝体的最佳组合为：0.1% NaClO消毒15~20 s+Hoagland/Knop+pH=7.5。本文的研究结果可以缩短长尖对齿藓生长周期以进行快速繁殖,为苔藓结皮的快速培育以及工程化应用提供一定的借鉴。     

降雪对荒漠地区藓类结皮中真藓生理生化的影响

生物土壤结皮的生存环境是地球上自养生物生存最为极端的生境之一,真藓是荒漠结皮中最为重要的组分之一。很少有研究涉及冬季降雪对结皮层生物体的影响。以宁夏沙坡头人工植被区内发育良好、长势均匀的真藓结皮为研究对象,系统研究降雪影响下荒漠地区藓类结皮层真藓的光合色素含量、可溶性糖含量、可溶性蛋白含量、丙二醛(MDA)含量以及脯氨酸含量的变化,并探讨其对降雪的生理生化响应。采用了4个降雪处理,分别是无降雪、0.5倍降雪、1倍降雪、2倍降雪。结果表明:随着降雪量的增加,其光合色素含量和可溶性蛋白含量显著增加;而可溶性糖含量、游离脯氨酸含量以及MDA含量均呈下降趋势。研究结果表明,作为生物土壤结皮重要水源之一的冬季降雪,能够为结皮层生物体提供适宜的水分条件以激发其生理生化活性,对维持荒漠生态系统的稳定性具有重要作用。     

仙鹤藓属（Atrichum）藓类植物组织培养再生体系的建立

报道了仙鹤藓（Atrichum undulatum(Hedw.)P.Beauv.)和仙鹤藓小形变种（Atrichum undulatum var.minus(Hedw.)Par.)的组织培养再生体系的建立。为研究仙鹤藓属（Atrichum)藓类愈伤组织的诱导和再分化,将仙鹤藓和仙鹤藓小形变种原丝体接种在含有4%葡萄糖和0.2-2.0mg/L 6-BA的MS培养基上,培养一个月后,成功地诱导出疏松、易碎的绿色愈伤组织。愈伤组织诱导和常规继代培养较适合的培养基为含4%葡萄糖和1-2mg/L 6-BA的MS培养基。当将继代培养5次的脱分化藓类愈伤组织转移到含4%葡萄糖但无任何激素的MS培养基上时,能再分化形成原丝体,而在无任何碳源的Benecke培养基土培养时,能再分化形成经原丝体阶段发育来的直立配子体。     

梨蒴珠藓孢子萌发与原丝体发育特征研究

为了解梨蒴珠藓（Bartramia pomiformis）孢子萌发和原丝体发育特征,在显微镜下观察室内人工培养的梨蒴珠藓单倍配子体发育过程。结果表明,梨蒴珠藓孢子吸水膨胀5 d后,开始破壁萌发,原丝体系统以丝状绿丝体为主,轴丝体在绿丝体上分化产生。培养22 d后,配子体在轴丝体细胞上分化产生。参照Nishida的标准,梨蒴珠藓孢子萌发类型为真藓型（Bryum-type）。这为梨蒴珠藓的人工扩繁提供了发育学基础资料。     

碎米藓属两种藓类植物孢子萌发与原丝体发育特征研究

为获取其孢子萌发类型与该属植物系统发育、生态选择以及生殖策略选择的相关性,该研究通过室内人工培养的方式,在微米量级下观察并描述了碎米藓属(Fabronia)碎米藓(F.pusilla)和东亚碎米藓(F.matsumurae)两种藓类植物孢子萌发、原丝体发育和配子体发生的过程。结果表明:(1)两种藓类植物孢子均为壁外萌发,均产生由1~15个半圆球形细胞组成的绿丝体(chloronema)短枝;(2)碎米藓在绿丝体顶端分化产生轴丝体细胞,东亚碎米藓未分化产生轴丝体(caulonema);(3)两种藓类植物配子体原始细胞均在绿丝体上分化产生。参照Nishida对藓类植物孢子萌发型划分标准,分析并确定了碎米藓属两种藓类植物孢子萌发型均为蓑藓型(Maromitrium-type),为碎米藓属的系统分类提供了发育学证据。     

Experimental Studies on the Natural Restoration and the Artificial Culture of the Moss Crusts on Fixed Dunes in the Tengger Desert,China

Soil microbiotic crusts cover extensive portions of the arid and semiarid regions of the world and play an important ecological role.Moss is one of the major components in the crusts.The reproduction and establishment of the mosses are crucial to the formation of moss crusts.Bryum argenteum is the dominant species of moss crusts in the Shapotou region (104°57'E,37°27'N) of the Tengger Desert.In search for the characteristics of natural reproduction and establishment of the mosses,10 quadrates (10×10 cm for each) were obtained by removing the moss crusts in different positions of fixed dunes.These 10 quadrates were observed for 3 years depending on the species' components and coverage.Meanwhile,in the third year,two quadrates (1×1 m for each) were set up in a crustabsent area and two different experiments of the asexual reproduction (broadcast planting and offshoots) were conducted,respectively.The reproductive process was observed under the microscope,and the morphological indicators of the new individuals were measured.The results were compared with the ones from indoor experiments using the same methods.All the results showed the following:(1) 70% of the quadrates (i.e.,7 of the 10 quadrates) were recovered within 3-4 years;thus,the quick recovery might be due to the dispersal and reproduction of the fragments of stems and leaves of B.argenteum;(2) as for the two quadrates in the artificial reproduction test,the new plants occupied the uncovered space of the quadrates in 1 month,and there were two main reproduction approaches,one of which was that the stems continually branched and produced young plants,and the other was that the young plants and the fragments of the stems and leaves repeatedly and extensively reproduced protonema,which finally developed into a large number of new plants;(3) the reproductive characteristics were identical,though the protonema in the field was more robust and had more branches than the ones indoors.     

Experimental Studies on the Natural Restoration and the Artificial Culture of the Moss Crusts on Fixed Dunes in the Tengger Desert, China

Soil microbiotic crusts cover extensive portions of the arid and semiarid regions of the world and play an important ecological role. Moss is one of the major components in the crusts. The reproduction and establishment of the mosses are crucial to the formation of moss crusts. Bryum argenteum is the dominant species of moss crusts in the Shapotou region (104°57′E, 37°27′N) of the Tengger Desert. In search for the characteristics of natural reproduction and establishment of the mosses, 10 quadrates (10×10 cm for each) were obtained by removing the moss crusts in different positions of fixed dunes. These 10 quadrates were observed for 3 years depending on the species’ components and coverage. Meanwhile, in the third year, two quadrates (1×1 m for each) were set up in a crust-absent area and two different experiments of the asexual reproduction (broadcast planting and offshoots) were conducted, respectively. The reproductive process was observed under the microscope, and the morphological indicators of the new individuals were measured. The results were compared with the ones from indoor experiments using the same methods. All the results showed the following: (1) 70% of the quadrates (i.e., 7 of the 10 quadrates) were recovered within 3–4 years; thus, the quick recovery might be due to the dispersal and reproduction of the fragments of stems and leaves of B. argenteum; (2) as for the two quadrates in the artificial reproduction test, the new plants occupied the uncovered space of the quadrates in 1 month, and there were two main reproduction approaches, one of which was that the stems continually branched and produced young plants, and the other was that the young plants and the fragments of the stems and leaves repeatedly and extensively reproduced protonema, which finally developed into a large number of new plants; (3) the reproductive characteristics were identical, though the protonema in the field was more robust and had more branches than the ones indoors. Translated from Acta Phytoecologica Sinica, 2005, 29(1) (in Chinese)     

Ecophysiological analysis of moss-dominated biological soil crusts and their separate components from the Succulent Karoo, South Africa

Biological soil crusts, formed by an association of soil particles with cyanobacteria, lichens, mosses, fungi and bacteria in varying proportions, live in or directly on top of the uppermost soil layer. To evaluate their role in the global carbon cycle, gas exchange measurements were conducted under controlled conditions. Moss-dominated soil crusts were first analyzed as moss tufts on soil, then the mosses were removed and the soil was analyzed separately to obtain the physiological response of both soil and individual moss stems. Net photosynthetic response of moss stems and complete crusts was decreased by insufficient and excess amounts of water, resulting in optimum curves with similar ranges of optimum water content. Light saturation of both sample types occurred at high irradiance, but moss stems reached light compensation and saturation points at lower values. Optimum temperatures of moss stems ranged between 22 and 27°C, whereas complete crusts reached similar net photosynthesis between 7 and 27°C. Under optimum conditions, moss stems reached higher net photosynthesis (4.0 vs. 2.8 μmol m^?2 s^?1) and lower dark respiration rates (?0.9 vs. ?2.4 μmol m^?2 s^?1). Respiration rates of soil without moss stems were high (up to ?2.0 μmol m^?2 s^?1) causing by far lower absolute values of NP/DR ratios of soil crusts as compared to moss stems. In carbon balances, it therefore has to be clearly distinguished between measurements of soil crust components versus complete crusts. High rates of soil respiration may be caused by leaching of mosses, creating high-nutrient microsites that favor microorganism growth.     

Effects of biological soil crusts on emergence of desert vascular plants in North China

Biological soil crusts are a universal and common feature in arid and semi-arid regions and their appearance profoundly affects soil surface properties which may greatly change the seed dispersal, germination and establishment. To date, only a handful of experiments have exerted to investigate the effects of crusts on vascular plants and the conclusions from these studies are variable. In this study, we investigate the influences of two different crusts universally spreading in southeastern part of the Tengger Desert with four chronosequences (24, 41, 50 years old in artificial vegetation area and natural vegetation crusts) on vascular plants. Crusts were placed at three different sites to simulate different environmental factors (wind velocity and soil crust moisture), we set two soil moisture regimes for crusts to investigate how vascular plants respond under different moisture regimes in crusts. Emergence densities of vascular plants were significantly higher in moss crust than in algae crust. With the development of crusts, seed emergence increased in moss crust while decreased in algae crust. As for effects of moisture, our results showed that soil moisture had a significant effect on seed emergence in both types of crusts at all developing phases. Crusts with higher moisture had more seedlings than those with lower moisture. The above results indicated that the appearance of crusts changed the surface soil properties, which had greatly influenced the entrapment and lodgement of seeds in the study area, thus subsequently influence seed emergence through affecting natural factors.     

实验室条件下两种生物土壤结皮对荒漠植物种子萌发的影响

生物土壤结皮广泛分布在干旱、半干旱区,深刻影响着土壤表层特性,进而对植物种子散布、萌发和定居产生极大的影响。到目前为止,生物土壤结皮与植物关系的研究很少见到,并且这些有限的研究所得出的结论存在着争议。研究了不同年龄的两种生物土壤结皮（苔藓结皮和藻类结皮）对油蒿（Artemisia ordosica）和雾冰藜（Bassia dasyphylla）种子萌发的影响,同时也研究了这两种结皮在失去活性前后对油蒿、雾冰藜和小画眉草（Eragrostis poaeoides）种子萌发的影响。苔藓和藻类结皮的出现对油蒿和雾冰藜种子的萌发均有显著的促进作用,而结皮年龄对植物种子的萌发没有显著的差异。对于不同的植物种,结皮类型和活性对种子的萌发具有不同的作用。雾冰藜在两种结皮上的萌发有显著的差异而油蒿和小画眉草在两种结皮上的萌发没有显著差异。活藻类显著地增加了三种植物的种子萌发,活苔藓仅增加了油蒿和雾冰藜种子萌发量而对小画眉草种子的萌发没有作用,研究表明,生物土壤结皮对一些植物种子萌发具有明显的促进作用。     

Tolerance to environmental desiccation in moss sperm

? Sexual reproduction in mosses requires that sperm be released freely into the environment before finding and fertilizing a receptive female. After release from the male plant, moss sperm may experience a range of abiotic stresses; however, few data are available examining stress tolerance of moss sperm and whether there is genetic variation for stress tolerance in this important life stage. ? Here, we investigated the effects of environmental desiccation and recovery on the sperm cells of three moss species (Bryum argenteum, Campylopus introflexus, and Ceratodon purpureus). ? We found that a fraction of sperm cells were tolerant to environmental desiccation for extended periods (d) and that tolerance did not vary among species. We found that this tolerance occurs irrespective of ambient dehydration conditions, and that the addition of sucrose during dry-down improved cell recovery. Although we observed no interspecific variation, significant variation among individuals within species in sperm cell tolerance to environmental desiccation was observed, suggesting selection could potentially act on this basic reproductive trait. ? The observation of desiccation-tolerant sperm in multiple moss species has important implications for understanding bryophyte reproduction, suggesting the presence of a significant, uncharacterized complexity in the ecology of moss mating systems.     

Effects of Biological Soil Crusts on Seed Bank, Germination and Establishment of Two Annual Plant Species in the Tengger Desert (N China)

The presence of biological soil crusts can affect the germination and survival of vascular plants, but the reasons are not well investigated. We have conducted a field investigation and greenhouse experiments to test the effect of crusts on two desert annual plants, which occur on the stabilized dunes of the Tengger Desert in N China. The results showed that biological soil crusts negatively influenced the seed bank of Eragrostis poaeoides and Bassia dasyphylla. The important effect of biological soil crusts on seed germination and establishment were performed indirectly through reducing the amount of germinating seeds. Field investigation and experimental results with regard to the seed bank indicated that higher seedling density was found in disturbed crust soil and bare soil surface than in intact crust soils. Greenhouse experiments showed that the effects of biological soil crusts on germination and establishment of the two plants are not obvious in moist condition, while disturbed crusts are more favorable to seed germination in dry treatment. Significant differences in biomass were found between disturbed crust soil and bare soil. Survival and growth of the two annual plants were enhanced in both algal and moss crusts during the season of rainfall or in moist environment, but crusts did not affect seedling survival in the dry period. The small seeded E. poaeoides has higher germination than larger-seeded B. dasyphylla in crust soils, but B. dasyphylla has a relatively higher survival rate than E. poaeoides in crust soils.     

生物土壤结皮对荒漠土壤线虫群落的影响

在干旱的沙漠生态系统中,生物土壤结皮对于沙丘的固定和土壤生物的维持起着相当重要的作用.土壤线虫能敏感的指示土壤的恢复程度,是衡量沙区生态恢复与健康的重要生物学属性,而目前关于生物土壤结皮与土壤线虫的关系研究很少.为探明生物土壤结皮对土壤线虫的影响,以腾格里沙漠东南缘的人工植被固沙区藻结皮和藓类结皮覆盖的沙丘土壤为研究对象,根据固沙年限的不同将样地分为4个不同的区进行采样(1956、1964、1981和1991年固沙区),以流沙区作为对照;同时,在不同季度(4、7、9和12月)分别采集腾格里沙漠东南缘的人工植被固沙区藻结皮和藓类结皮覆盖下不同土层(0-10、10-20和20-30 cm)的沙丘土壤,以沙坡头地区的红卫天然植被区为对照,分析生物土壤结皮下土壤线虫的时空变化.采用改良的Baermann漏斗法进行分离线虫,用光学显微镜鉴定并统计.研究表明:1956、1964、1981和1991年人工植被固沙区的藻结皮和藓类结皮均可显著提高其下土壤线虫多度、属的丰富度、Shannon-Weaver多样性指数、富集指数和结构指数(P＜0.05),这可能是因为生物土壤结皮的存在为土壤线虫提供了重要的食物来源和适宜的生存环境;固沙年限与结皮下土壤线虫多度、属的丰富度、Shannon-Weaver多样性指数、富集指数和结构指数存在显著的正相关关系(P＜0.05),这说明固沙年限越久,越有利于土壤线虫的生存和繁衍;结皮类型显著影响土壤线虫群落,相对于藻结皮而言,藓类结皮下土壤线虫多度与属的丰富度更高(P＜0.05),这说明演替后期的藓类结皮比演替早期的藻结皮更有利于土壤线虫的生存和繁衍.此外,藻结皮和藓类结皮均可显著增加其下0-10、10-20和20-30 cm土层线虫多度和属的丰富度(P＜0.05),但随着土壤深度的增加,这种影响逐渐减弱,表明生物土壤结皮更有利于表层土壤线虫的生存;而且,随着季节的变化,藻结皮和藓类结皮下土壤线虫多度基本表现为秋季＞夏季＞春季＞冬季,这些反映了生物土壤结皮的生物量、盖度和种类组成随着季节变化而变化.因此,腾格里沙漠东南缘的人工植被固沙区生物土壤结皮的存在与演替有利于土壤线虫的生存和繁衍,增加了线虫数量、种类和多样性,这指示了生物土壤结皮有利于该区土壤及其相应生态系统的恢复.