Impacts of freeze-thaw processes on antioxidant activities and osmolyte contents of Syntrichia caninervis under different desert microhabitats

 齿肋赤藓(Syntrichia caninervis)作为典型的耐旱藓类, 广泛分布于世界干旱和半干旱荒漠地区, 是古尔班通古特沙漠生物土壤结皮中的优势藓类植物。该沙漠冬季具有稳定的降雪, 初春的积雪融化为植物的生长提供了良好的水热条件。荒漠藓类植物叶片仅具一层细胞, 对外界环境的变化十分敏感, 有关荒漠藓类植物在冬季和早春地表冻融交替过程中如何适应环境剧烈变化的研究鲜见报道。该研究探讨了生长于3种不同微生境(活灌丛、枯死灌丛和裸露地)下的齿肋赤藓, 经由冬季低温冻结到早春融雪复水再到春季中旬自然干燥过程中的生理生化变化特征。结果表明: 不同冻融期、微生境及二者的交互作用能够显著影响齿肋赤藓的渗透调节物质(游离脯氨酸、可溶性糖、可溶性蛋白)含量、丙二醛(MDA)含量、抗氧化酶活性(过氧化氢酶(CAT)、过氧化物酶(POD)和超氧化物歧化酶(SOD)活性)。冬季低温冻结期的极端低温和春季中旬的干燥环境使得齿肋赤藓可溶性糖和MDA含量, 以及3种抗氧化酶活性均显著高于早春融雪期, 可溶性蛋白含量显著低于融雪期。同时, 在融雪期灌丛遮阴所形成的“冷岛效应”使得生长于灌丛下的齿肋赤藓植株可溶性糖和MDA含量显著高于枯死灌丛和裸露地。但灌丛的存在也为春季中旬干旱无雨期齿肋赤藓提供了一个相对良好(含水量高)的生活环境, 其下齿肋赤藓的渗透调节物含量和抗氧化酶活性均显著低于其他两个生境。在整个冻融过程中裸露地齿肋赤藓的3种抗氧化酶活性均显著高于灌丛下, 这可能是由于生活于裸露地的苔藓有更强的耐胁迫特性。     

不同微生境下齿肋赤藓(Syntrichia caninervis)生理生化特性对不同季节的响应

齿肋赤藓(Syntrichia caninervis)作为典型的耐旱藓类,在古尔班通古特沙漠的藓类结皮中占优势地位。该沙漠的季节气候差异较大,冬季低温湿润,春季干旱,夏季高温且干旱。荒漠藓类植物叶片仅具单层细胞,对外界环境的变化十分敏感。而有关荒漠藓类植物在生理上如何适应这种剧烈环境变化还不得而知。研究测定了生长于两种不同微生境下的齿肋赤藓,经由低温湿润的冬季到干旱的春季再到高温干旱的夏季过程中生理生化变化特征,以探究不同微生境下齿肋赤藓在水热变化剧烈的不同季节的适应机制。研究发现:季节、微生境及二者的交互作用能够显著影响齿肋赤藓的游离脯氨酸、可溶性糖、可溶性蛋白及丙二醛(MDA)含量、过氧化氢酶(CAT)、过氧化物酶(POD)、超氧化物歧化酶(SOD)活性。夏季的高温干旱使齿肋赤藓的脯氨酸、可溶性糖、MDA含量及3种抗氧化酶活性均显著高于冬季及春季,而可溶性蛋白含量却呈相反趋势。干旱的春季齿肋赤藓脯氨酸及可溶性糖显著高于冬季。而在低温湿润的冬季,齿肋赤藓丙二醛含量及过氧化氢酶活性均显著高于春季。表明夏季齿肋赤藓所受胁迫最大,脯氨酸、可溶性糖含量及抗氧化酶活性大幅度提高。同时,在具有积雪覆盖的冬季,两种微生境下的齿肋赤藓生理生化特性无显著差异;而在无积雪覆盖的春夏季节,灌丛的遮阴作用为齿肋赤藓提供了水含量相对较高的良好生活环境,其下齿肋赤藓的渗透调节物质含量和抗氧化酶活性均显著低于裸露地。表明生长在裸露地的齿肋赤藓较活灌丛拥有更强的胁迫耐受性。     

灌丛移除对荒漠齿肋赤藓越冬过程中生理生化特性的影响

灌丛和生物土壤结皮镶嵌分布是古尔班通古特沙漠一种重要的地表覆被类型, 灌丛的存在不仅为小型动物提供了庇护场所, 也为隐花植物及部分草本植物创造了良好的生存条件。然而在初冬时期移除灌丛是否会影响这些隐花植物的越冬及生长还不得而知。该研究通过模拟放牧及鼠害, 移除50%双穗麻黄(Ephedra distachya)灌丛、移除全部双穗麻黄灌丛及自然对照, 测定齿肋赤藓(Syntrichia caninervis)植株脯氨酸、可溶性糖和可溶性蛋白含量, 以及丙二醛(MDA)含量和超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT) 3种抗氧化酶活性, 并测定原位光化学效率, 探讨初冬灌丛丧失对荒漠藓类植物越冬的影响。结果表明, 在积雪期3种处理下齿肋赤藓的游离脯氨酸和可溶性糖含量之间差异并不显著, 但去灌丛后其MDA含量、POD、SOD和CAT 3种抗氧化酶活性均显著高于自然灌丛下齿肋赤藓的相关生理指标。即使是在融雪期, 去灌丛下齿肋赤藓的可溶性糖含量及POD和CAT活性仍显著高于自然灌丛, 而可溶性蛋白明显较低, 这可能是由于灌丛的丧失造成的温度波动加剧了冬季低温对藓类植物的伤害。灌丛的部分移除(50%)对齿肋赤藓的生理生化特性影响不显著, 就积雪融化期叶绿素荧光活性持续时间而言, 与自然灌丛和移除50%灌丛相比, 完全移除灌丛的齿肋赤藓植株叶绿素荧光活性持续时间显著缩短。这可能是由于灌丛移除导致其UV-B辐射增加及“湿岛效应”消失所致, UV-B辐射的增加加剧了对植物的伤害, 而春季融雪期保水能力的下降也是其叶绿素荧光活性时间缩短的重要原因。     

荒漠区不同微生境下齿肋赤藓对一次降雪的生理生化响应

耐旱苔藓广泛分布于干旱半干旱荒漠地区, 对荒漠生态系统稳定性与功能多样性具有重要作用。齿肋赤藓(Syntrichia caninervis)是古尔班通古特沙漠苔藓结皮层的优势物种, 生于不同的微环境中。古尔班通古特沙漠冬、春季降雪频繁, 并能形成稳定的积雪层。目前关于降雪与微生境对齿肋赤藓生理生化特征影响的研究极为缺乏。该研究探讨了初冬一次降雪前后活灌丛、死灌丛和裸露地3种微生境下齿肋赤藓相关生理生化特征。结果表明, 与降雪前相比, 降雪后各微生境下齿肋赤藓植株的含水量、荧光活性、可溶性糖含量、超氧化物歧化酶(SOD)和过氧化物酶(POD)活性均有明显提高, 但脯氨酸、可溶性蛋白和丙二醛(MDA)含量有不同程度的降低。微生境对齿肋赤藓的生理指标有不同程度的影响, 而且与降雪具有显著的交互作用(脯氨酸除外)。降雪前后, 活灌丛下的齿肋赤藓具有较高的含水量和光合活性, 以及较低的保护酶(POD和SOD) 活性, 裸露地则表现出完全相反的特点。表明前者面临的胁迫最小, 生理活性最大, 但抗性较弱; 而后者具有更大的抗胁迫能力, 但生理活性低。降雪后, 脯氨酸、MDA、POD及SOD均与植株含水量呈显著负相关, 而荧光活性、可溶性糖及可溶性蛋白含量与植株含水量为显著正相关, 表明降雪降低了齿肋赤藓的水分胁迫程度, 改善并促进了生理活性与光合作用, 而且初冬的低温也起到了促进作用。     

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_...     

水分条件对人工培养齿肋赤藓光化学效率及生理特性的影响

齿肋赤藓(Syntrichia caninervis)是荒漠藓类生物结皮的主要组成物种,在沙面固定及生物结皮人工恢复中起着十分重要的作用。然而,人工培养的荒漠藓类植物普遍存在后期维持能力较差的问题。在众多的影响因素中,水分被认为是限制荒漠齿肋赤藓生长发育的最关键环境因子。该文以室内人工培养的齿肋赤藓为研究对象,模拟野外降雨条件,在室内对其进行干旱处理(每6天加水,模拟夏季少雨、干旱缺水条件)、完全湿润处理(每天加水,模拟春季融雪或降雨较频繁、水分饱和条件)及中度湿润处理(每3天加水,模拟介于前两种之间的水分条件)3种水分梯度处理,探讨不同的水分条件处理对人工培养的齿肋赤藓光合及生理特性的影响。结果表明:与中度湿润处理相比,人工培养的齿肋赤藓的总叶绿素含量在湿润处理和干旱处理两种水分梯度处理下均显著下降,叶绿素a/b在干旱处理下显著降低,类胡萝卜素含量在湿润处理下显著下降,在干旱处理下显著升高;湿润处理及干旱处理下人工培养的齿肋赤藓的最大光化学效率、实际光化学效率和可溶性蛋白含量均显著低于中度湿润处理,而可溶性糖含量、脯氨酸含量、过氧化氢酶、过氧化物酶、超氧化物歧化酶活性和丙二醛(MDA)含量大都显著高于中度湿润处理,尤其是干旱处理。完全湿润处理下齿肋赤藓植株渗透调节物质含量及保护酶活性的升高有效地缓解了高水分含量带来的缺氧及低光照环境对人工培养的齿肋赤藓的损害。干旱处理下的MDA含量显著升高,说明干旱胁迫处理加剧了人工培养的齿肋赤藓的膜脂过氧化程度,对其细胞膜的稳定性造成了一定损害。因此,在人工培养苔藓后期,干旱和完全湿润处理都不利于苔藓植物的生长,中度湿润处理则有利。     

荒漠齿肋赤藓(Syntrichia caninervis)非结构性碳水化合物含量对植株脱水的响应

苔藓结皮作为生物土壤结皮演替的最高阶段和生物量的最主要贡献者,具有很强的环境适应性,对维持荒漠地表稳定和改善微环境具有重要作用。非结构性碳水化合物是植物重要的组成部分,能够抵御环境胁迫对植物造成的损伤。目前,荒漠藓类植物非结构碳水化合物对干旱的响应机制尚不清楚。选取古尔班通古特沙漠南缘和腹地苔藓结皮中优势藓类植物齿肋赤藓(Syntrichia caninervis)为研究对象,对其在复水后脱水过程中非结构性碳水化合物含量变化特征进行了分析。结果表明:植株含水量在脱水24 h内下降趋势显著,此后趋于稳定。可溶性总糖、蔗糖、果糖、淀粉含量在脱水1h内显著下降。可溶性总糖、蔗糖、果糖、淀粉含量在脱水2—16 h没有显著的变化。但16—24 h可溶性总糖、蔗糖、果糖、淀粉含量出现显著增加,脱水24—48 h,腹地齿肋赤藓可溶性总糖、蔗糖、果糖、淀粉含量缓慢下降到复水前水平,而南缘可溶性总糖、蔗糖、果糖含量低于复水前水平。复水前不同地区齿肋赤藓非结构性碳水化合物含量存在显著性差异,脱水结束后两个地区齿肋赤藓非结构碳水化合物含量无显著差异。结果说明齿肋赤藓在不同地区其非结构性碳水化合物含量不同,在同一脱复水过程中不同地区齿肋赤藓非结构性碳水化合物含量表现出不同的变化趋势,主要原因是可溶性糖含量对脱水过程中水分胁迫的响应不同。齿肋赤藓脱水过程中非结构性碳水化合物的研究,有助于抗旱非维管植物在干旱环境中从降雨湿润进入干旱过程的适应策略研究。     

黄土高原三种耐干藓营养繁殖的季节差异及机理

苔藓植物在园林绿化、水土保持等方面的应用日益增加,目前藓类植物营养繁殖的影响因素鲜见报道,限制了其应用研究。本研究以黄土高原常见的耐干藓(扭口藓、土生对齿藓、短叶对齿藓)为对象,研究了3种藓春、夏、秋、冬季营养繁殖能力(以活力指数表征)差异及其叶绿素、可溶性糖、可溶性蛋白质、丙二醛(MDA)含量等生理指标变化,探索了耐干藓营养繁殖的季节差异与其生理特征之间的关系。结果表明: 1)藓类繁殖具有明显的季节差异,3种藓夏季活力指数均低于其他3个季节,平均较秋、冬、春季分别下降56.1%、48.4%、10.1%;相同季节的活力指数具有明显的年际变化。2)3种藓繁殖能力具有明显的种间差异,以短叶对齿藓最高,扭口藓最低,且后者的繁殖能力季节和年际变化最大。3)3种藓不同季节生理特征差异显著,其中夏季MDA含量高于其他季节,可溶性糖和可溶性蛋白质含量低于其他季节。4)耐干藓的营养繁殖季节变化主要与可溶性糖含量有关。本研究明确了藓类营养繁殖能力随季节变化的规律,指出可溶性糖含量是影响藓类营养繁殖的关键因素,可为藓类植物保护和人工培养提供科学依据。     

不同积雪覆盖期荒漠齿肋赤藓结皮层丛枝菌根真菌多样性变化

【背景】温带荒漠有积雪背景条件下的荒漠苔藓植物与丛枝菌根真菌(arbuscular mycorrhizal fungi,AMF)共生关系的研究非常有限。【目的】揭示不同积雪覆盖期(降雪前、雪盖期、融雪期)齿肋赤藓结皮层中AMF多样性的差异,为正确认识荒漠特色植物与微生物在冬季积雪期互利的重要生存策略提供数据支撑。【方法】利用高通量测序技术,分析稳定积雪期的古尔班通古特沙漠优势苔藓齿肋赤藓结皮AMF群落组成与多样性状况,尤其是降雪前和融雪期AMF群落结构差异。【结果】降雪前、雪盖期及融雪期检测到的OTU分属于球囊菌门(Glomeromycota)的5目9科11属,其中,近明球囊霉属(Claroideoglomus)、原囊霉属(Archaeospora)、类球囊霉属(Paraglomus)和球囊霉属(Glomus)为优势类群;降雪前和融雪期齿肋赤藓结皮层中绝对优势属(>50%)均为近明球囊霉属。群落丰富度Chao1指数和ACE指数均表现为雪盖前>积雪期>融雪期,表明降雪减少了AMF群落丰富度。近明球囊霉属融雪期比例大幅增加,而类球囊霉属、球囊霉属则较降雪前比例下降。基于MEGAN的分类学组成信息可视化分析表明,低丰度AMF类群更容易受到影响,无梗囊霉属(Acaulospora)主要集中在降雪前采集的样品中,而多样孢囊霉属(Diversispora)主要集中在融雪期样品中。结合聚类分析的属水平群落组成热图发现,高丰度分类单元的类别由降雪前的5种集中为2种。主成分分析结果表明,主成分1能够区分降雪前后的AMF群落结构特征,进一步验证降雪缺失对藓类结皮层AMF群落组成有筛选作用。高丰度优势属近明球囊霉属和球囊霉属之间、类球囊霉属和原囊霉属之间均呈现负相关,可能存在竞争关系;低丰度属巨孢囊霉属(Gigaspora)、隔球囊霉属(Septoglomus)、双型囊霉属(Ambispora)、盾巨孢囊霉属(Scutellospora)呈现正相关,可能存在协作关系以适应降雪。【结论】古尔班通古特沙漠的冬季降雪对苔藓结皮层AMF类群中的优势属和低丰度属有不同的选择策略。融雪期绝对优势属会降低存在竞争关系优势属的比例,进一步巩固优势地位,而存在正相关的低丰度属会同步降低比例,而且苔藓结皮层AMF优势属在该沙漠为近明球囊霉属。     

NaCl胁迫对荒漠苔藓齿肋赤藓膜结构稳定性的影响

苔藓结皮作为生物土壤结皮演替的最高阶段和生物量的最主要贡献者,对维持荒漠地表稳定和改善微环境具有重要作用。齿肋赤藓Syntrichia caninervis Mitt.作为荒漠苔藓结皮的优势种,是不可多得的开展抗逆性资源研究的重要材料。研究对齿肋赤藓进行不同NaCl浓度 (0、200、300和400 mmol/L) 和不同胁迫时间 (处理1 d、2 d、3 d、5 d、7 d和14 d) 处理,主要从结构特性和生理特性对其膜结构进行研究。结果表明:齿肋赤藓在中浓度NaCl胁迫 (200 mmol/L和300 mmol/L) 下均未观察到电导率显著变化,而随着胁迫时间的增加,细胞超微结构发生明显变化,特别在高浓度NaCl胁迫 (400 mmol/L) 下,细胞发生严重的质壁分离,叶肉细胞部分发生死亡,且出现大量泡状结构,而叶绿体大部分解体,片层结构消失,淀粉粒数量增加且体积变大,但这一过程中没有膜损坏的直接证据。据此关于齿肋赤藓耐受NaCl胁迫的膜结构稳定性有2种可能推测:(1) 齿肋赤藓具有特殊的形态和解剖特征,例如:细胞壁较厚,且存在角隅加厚现象,使其能够在恶劣的盐胁迫环境下生存,并保留细胞结构完好无损;(2) 在NaCl胁迫过程中,快速且持续的增加可溶性糖 ("组成性" 保护物质) 和游离脯氨酸,有助于提高细胞膜的稳定性。荒漠苔藓齿肋赤藓虽然没有被定义为盐生植物,但以上研究结果表明,齿肋赤藓可以作为一种新的模式物种展开关于盐胁迫方面的研究。     

Impacts of the removal of vascular plants on physiological and biochemical characteristics of Syntrichia caninervis during winter season in a temperate desert

Aims Patchily distributed biological soil crusts and shrubs is one of the main vegetation cover types in Gurbantünggüt desert. The existence of shrubs in desert areas serves not only as a shelter for small animals, but also a good living condition for cryptogams and some herbs. Syntrichia caninervis, a dominant moss species in Gurbantünggüt desert, is patchily distributed under shrub canopy and open spaces between vascular plants. To our knowledge, the impacts of the removal of shrub canopy on physiological and biochemical characteristics of S. caninervis during the winter is still unknown.
Methods We simulated grazing of animals on Ephedra distachya at various rates (shrubs left intact, 50% shrubs removed, and shrubs removed completely) by cutting different percent of above-ground shoots of E. distachya. The shoot water content, chlorophyll fluorescence, proline content, soluble sugar content, soluble protein content, malonyldialdehyde (MDA) content, peroxidase (POD) and superoxide dismutase (SOD) activity were compared.
Important findings The results show that, as for proline and soluble sugar contents of tested S. caninervis, there were no significant differences among three treatments of shrub canopy. However, the MDA content, and the activities of POD, SOD, CAT were significantly higher than nature shrubs in snow cover periods. During snow-melting periods, soil moisture and temperature did not served as limiting factors on the growth of S. caninervis. The soluble sugar content, and the activities of POD, CAT with shrub removal were significantly higher than shrubs left intact. This may indicate that the decline of the function of maintaining constant soil temperature due to shrub canopy increased the damage of temperature on moss plants. In addition, as for physiological and biochemical characteristics, there were no significant differences between two treatments of 50% shrub canopy and shrub canopy left intact. In snow covered periods and snow melting periods, the MDA content, the activities of POD, SOD and CAT of S. caninervis under shrub canopy removed completely were significantly higher than that of 50% shrub canopy and shrub canopy left intact, except for soluble protein content. The duration of chlorophyll fluorescence activity of S. caninervis growing in habitats with shrubs removed completely was significantly shorter than that of S. caninervis growing in habitats of 50% shrub canopy and shrub canopy left intact. This result indicated that the removal of shrubs may increase the UV-B radiation and weaken the “moisture island effects” developed by the existence of shrub canopy.     

Basic Fibroblast Growth Factor Contributes to a Shift in the Angioregulatory Activity of Retinal Glial (Müller) Cells

Basic fibroblast growth factor (bFGF) is a pleiotropic cytokine with pro-angiogenic and neurotrophic effects. The angioregulatory role of this molecule may become especially significant in retinal neovascularization, which is a hallmark of a number of ischemic eye diseases. This study was undertaken to reveal expression characteristics of bFGF, produced by retinal glial (Müller) cells, and to determine conditions under which glial bFGF may stimulate the proliferation of retinal microvascular endothelial cells. Immunofluorescence labeling detected bFGF in Müller cells of the rat retina and in acutely isolated Müller cells with bFGF levels, which increased after ischemia-reperfusion in postischemic retinas. In patients with proliferative diabetic retinopathy or myopia, the immunoreactivity of bFGF co-localized to glial fibrillary acidic protein (GFAP)-positive cells in surgically excised retinal tissues. RT-PCR and ELISA analyses indicated that cultured Müller cells produce bFGF, which is elevated under hypoxia or oxidative stress, as well as under stimulation with various growth factors and cytokines, including pro-inflammatory factors. When retinal endothelial cells were cultured in the presence of media from hypoxia (0.2%)-conditioned Müller cells, a distinct picture of endothelial cell proliferation emerged. Media from 24-h cultured Müller cells inhibited proliferation, whereas 72-h conditioned media elicited a stimulatory effect. BFGF-neutralizing antibodies suppressed the enhanced endothelial cell proliferation to a similar extent as anti-VEGF antibodies. Furthermore, phosphorylation of extracellular signal-regulated kinases (ERK−1/−2) in retinal endothelial cells was increased when the cells were cultured in 72-h conditioned media, while neutralizing bFGF attenuated the activation of this signaling pathway. These data provide evidence that retinal (glial) Müller cells are major sources of bFGF in the ischemic retina. Müller cells under physiological conditions or transient hypoxia seem to provide an anti-angiogenic environment, but long-lasting hypoxia causes the release of bFGF, which might significantly co-stimulate neovascularization in the retina.     

冻融条件下生物结皮覆盖对土壤饱和导水率的影响

生物结皮(BSC)是广泛分布的地被物,每逢冬春季节,受冻融交替作用影响,结皮土壤的理化性质和水文学特征明显改变且与裸土差异显著,从而影响该地区土壤可蚀性评估和土壤侵蚀防治。采用室内模拟实验,以蓝藻结皮土壤为对象,研究不同冻融交替次数和初始含水量下,土壤三相对温度变化的响应特征并定量分析结皮覆盖土壤在此条件下饱和导水率(Ks)的变化趋势和突变点。结果表明:初始含水量对Ks无显著影响(P>0.05),冻融交替次数对Ks有极显著影响(P<0.01),冻融条件下裸土的平均Ks为1.941 mm/min,结皮覆盖土壤平均Ks为0.325 mm/min,两者具有极显著差异(P<0.01),且随交替次数增加,Ks差异逐渐增大,并在10次时达到最大值为10.13倍。不同冻融含水量下的结皮土壤的Ks在冻融10—20次时趋近,平均值为0.219mm/min。冻融作用显著改变土壤结构,且在冻融7次时土壤结构变化较明显,冻融过程中<0.1 mm的土壤颗粒显著变化。试验条件下,Ks受因子影响程度大小为:冻融交替次数>土壤结构>结皮厚度>结皮容重>下层土壤容重>...     

蒺藜集合繁殖体形态及间歇性萌发特性

蒺藜(Tribulus terrester)果实由5个集合繁殖体构成, 是一种常见的具集合繁殖体的一年生植物。该文对不同月份成熟的蒺藜果实及果实集合繁殖体的形态、活力、吸水率、萌发率及萌发速率进行了比较观察, 初步探讨其生态学意义。主要结果如下: 1)果实各集合繁殖体间在质量、附属物质量百分比、种子数、活力、吸水率、萌发率及萌发速率方面随其发育顺序依次减小, 存在显著差异; 2)果实平均活力及萌发率随成熟时间依次升高, 而吸水率依次降低, 平均活力及萌发率与果实成熟时间正相关, 而与吸水率负相关, 成熟时间越早, 活力及萌发率越低, 吸水率越高; 3)除9月最晚成熟的集合繁殖体在最适条件下均能萌发外, 其余月份的果实各集合繁殖体只能部分萌发, 且只有位于集合繁殖体长刺端的种子能萌发, 这种在当季只萌发部分种子, 剩下的种子仍然保持在一个扩散单元中并在数周、数月或数年间不规则地间隔萌发属于间歇性萌发。上述结果表明: 不同月份成熟果实及果实不同发育顺序的集合繁殖体在形态、活力及吸水率方面存在梯度变化, 这种变化可能是造成蒺藜间歇性萌发的主要原因, 这种萌发对策可以降低同胞后代间的竞争, 使其对可变环境中的生存风险进行有效的分摊, 为物种的延续提供保障。     

Functional Implication of Dp71 in Osmoregulation and Vascular Permeability of the Retina

Functional alterations of Müller cells, the principal glia of the retina, are an early hallmark of most retina diseases and contribute to their further progression. The molecular mechanisms of these reactive Müller cell alterations, resulting in disturbed retinal homeostasis, remain largely unknown. Here we show that experimental detachment of mouse retina induces mislocation of the inwardly rectifying potassium channels (Kir4.1) and a downregulation of the water channel protein (AQP4) in Müller cells. These alterations are associated with a strong decrease of Dp71, a cytoskeleton protein responsible for the localization and the clustering of Kir4.1 and AQP4. Partial (in detached retinas) or total depletion of Dp71 in Müller cells (in Dp71-null mice) impairs the capability of volume regulation of Müller cells under osmotic stress. The abnormal swelling of Müller cells In Dp71-null mice involves the action of inflammatory mediators. Moreover, we investigated whether the alterations in Müller cells of Dp71-null mice may interfere with their regulatory effect on the blood-retina barrier. In the absence of Dp71, the retinal vascular permeability was increased as compared to the controls. Our results reveal that Dp71 is crucially implicated in the maintenance of potassium homeostasis, in transmembraneous water transport, and in the Müller cell-mediated regulation of retinal vascular permeability. Furthermore, our data provide novel insights into the mechanisms of retinal homeostasis provided by Müller cells under normal and pathological conditions.     

New data on the genus Derops Sharp (Coleoptera,Staphylinidae, Tachyporinae) from China with description of two new species

Two new Chinese species of Derops are described: Derops hainanus sp. n. from Hainan and Derops yunnanus sp. n. from Yunnan. Females of Derops punctipennis Schülke and Derops schillhammeri Schülke are described for the first time and new provinces records of Derops smetanai Schülke and Derops dingshanus Watanabe are reported. The key to Chinese species of Derops published by Schülke 2003 is modified to include the new species.     

Induction of Retinal Progenitors and Neurons from Mammalian Müller Glia under Defined Conditions

Vision impairment caused by loss of retinal neurons affects millions of people worldwide, and currently, there is no effective treatment. Müller glia of mammalian retina may represent an under-recognized and potential source for regeneration of a wide range of retinal cell types, including retinal ganglion cells and photoreceptors. Here, we demonstrated that mouse Müller glia cells have the capacity to be reprogrammed into the retinal neuronal cell fate and are competent to give rise to photoreceptors under a defined culture condition. Inactivation of p53 released proliferation restriction of Müller glia and significantly enhanced the induction of retinal progenitor from Müller glia in culture. Moreover, following the ocular transplantation, the Müller glia-derived progenitors were differentiated toward the fates of photoreceptors and retinal ganglion cells. Together, these results demonstrate the feasibility of using Müller glia as a potential source for retinal repair and regeneration.     

A taxonomic revision of the silphaeformis species-group of the genus Tachinus Gravenhorst (Staphylinidae,Tachyporinae) from China

The Chinese species of the silphaeformis group of the genus Tachinus Gravenhorst are revised with fifteen species being treated. Thirteen of them are described as new: T. armatus Feng & Li, sp. n. (Sichuan), T. cavazzutii Feng, Li & Schülke, sp. n. (Sichuan), T. coronatus Feng, Li & Schülke, sp. n. (Ningxia, Qinghai), T. hercules Feng, Li & Schülke, sp. n. (Sichuan), T. hujiayaoi Feng, Li & Schülke, sp. n. (Shaanxi), T. jiuzhaigouensis Feng, Li & Schülke, sp. n. (Sichuan), T. linzhiensis Feng & Li, sp. n. (Tibet), T. maderianus Feng & Li, sp. n. (Sichuan), T. mengdaensis Feng, Li & Schülke, sp. n. (Qinghai), T. oblongoelytratus Feng & Li, sp. n. (Sichuan), T. parahercules Feng, Li & Schülke, sp. n. (Sichuan), T. paralinzhiensis Feng & Li, sp. n. (Tibet), and T. yini Feng, Li & Schülke, sp. n. (Sichuan). The two known species are redescribed based on the holotypes and additional material. Illustrations of the habitus and major diagnostic characters, distributional maps, and identification keys of all species are included.