Comparisons of photosynthesis-related traits among understory lichens,mosses and vascular plant leaves in a high-elevation subalpine forest

对比高海拔亚高山森林林下地衣、藓类及维管植物叶片的光合相关性状 在高海拔亚高山森林中，许多地衣和藓类植物欣欣向荣，甚至成为林地表层的优势物种。尽管它们在森林生态系统中承担着不可替代的功能，但我们对其光合作用相关的功能性状水平知之甚少，对相同生境下藓类植物和维管植物的比较研究也较为匮乏。因此，本研究选择中国青藏高原东缘亚高山林下常见的3种地衣、3种藓类和4种维管植物，测定并对比了它们的碳、氮、磷含量及化学计量比、单位面积光合组织干重、叶绿素含量及光合光响应曲线的异同。研究结果表明，林下地衣的氮含量高于藓类植物，二者的氮、磷、叶绿素、光合速率及光合氮利用效率均低于维管植物叶片。不同种类地衣的光合相关性状与其生长环境相符，而林地表层的3种藓类植物和3种草本植物的功能性状在各自功能群中的种间差异均不显著。总之，这些结果表明高海拔亚高山林下地衣和藓类植物的优势与其光合相关性状关系不大，对严酷环境较强的适应能力可能是它们得以繁荣生长的关键。     

不同生境下十七种藓类植物叶的比较解剖学

使用石蜡切片法,对不同生境下的17种藓类植物的叶片进行了解剖观察和比较分析,结果表明不同种类的藓类植物在中肋导水主细胞的有无、厚壁细胞是否分化、中肋细胞层数及细胞密度、叶片细胞层数、叶表附属物、叶片细胞密度等方面存在显著差异。藓类植物叶的解剖结构具有生态适应意义,旱生环境下的藓类植物,叶片细胞胞壁具不同程度的增厚,有些藓类植物叶片具附属结构,藓类植物中肋的有无,反映了对水分吸收和运输方式的不同。例如,荫湿生环境下的羽枝青藓Brachythecium plumosum,其中肋细胞胞壁较薄,无导水主细胞和副细胞的分化,也没有厚壁细胞分化,能够在阴湿环境下吸收水分和养分;钝叶匍灯藓Plagiom niumrostratum具有与旱生藓类植物相似的中肋结构,叶片较厚,中肋具导水主细胞,中肋背面具厚壁细胞,这些特点使该种藓类植物能够分布于间隙性干旱胁迫的环境中;水灰藓Hygro-hypnum luridum叶片纤细柔弱,仅1层细胞,细胞胞壁薄,叶表无附属结构,中肋细胞层数少,无导水主细胞分化,也没有厚壁细胞,这些特点使得水灰藓能够生长在水生环境中;东亚小金发藓Pogonatum inflexum和波叶仙鹤藓Atrich umundulatum的叶腹面覆盖着栉片,东亚砂藓Racomitrium japonicum、大羽藓Thuidium cym-bifolium、福氏蓑藓Macromitrium ferriei、东亚短颈藓Diphyscium fulvifolium、扭口藓Barbula unguiculata和角齿藓Ceratodon purpureus的叶片表面有乳头状突起或疣状物,这些附属结构使它们能够适应于旱生的环境中。     

羽枝青藓和瘤柄匐灯藓对入侵植物种子萌发和幼苗生长的影响

入侵植物会通过化感作用等手段抑制本地种的生存繁衍,但本土植物尤其是地被层的藓类植物对入侵植物有何影响尚不清楚。本文以本土羽枝青藓和瘤柄匐灯藓为供体材料,以恶性入侵杂草稗草和野胡萝卜为受试材料,从藓丛结构特征和化感作用角度探究藓类植物对入侵植物种子萌发和幼苗生长的影响。结果表明: 2种入侵植物种子落入藓丛后其发芽率、发芽势和发芽指数均受到显著抑制,抑制效果为藓丛上部>藓丛下部>无藓丛。稗草种子落入藓丛下部会显著影响其根长和根芽比。施加藓类浸提液均显著降低2种入侵植物的发芽率、发芽势及发芽指数,但呈现不同的浓度效应。施加浸提液在一定程度上增加了稗草幼苗芽长、根长和根芽比,但对野胡萝卜无明显的规律性影响。藓类植物对2种入侵植物种子萌发和幼苗生长的化感综合效应均表现为抑制作用,其中,野胡萝卜的敏感性大于稗草,且高浓度下更加明显。可见,藓类植物对入侵植物种子萌发和幼苗生长具有一定抑制作用。     

宝天曼自然保护区两种优势藓类植物C、N、P生态化学计量特征研究

该研究以宝天曼自然保护区两种优势藓类物种大羽藓(Thuidium cymbifolium)和无边提灯藓(Mnium immarginatum)为对象,测定和分析了不同海拔生境条件下苔藓植物绿色组织和土壤的C、N、P含量及其比值。结果表明:该区域内两种藓类植物绿色组织的C、N、P含量范围是46.81%~49.09%、0.21%~0.25%、0.02%~0.08%;不同元素在海拔间存在较大差异,具体表现为大羽藓的C、N含量在不同海拔间差异显著,无边提灯藓的N、P含量在不同海拔梯度间差异显著,但总体仅N元素随海拔的上升表现出显著下降的趋势;土壤的C、N、N∶P和C∶P比值总体上表现出随海拔升高而增加的变化趋势,而土壤P含量以及C∶N比值随海拔梯度的变化并未表现出一致的变化趋势;同时,随着土壤C含量增加,大羽藓C含量呈现上升趋势,无边提灯藓呈现下降趋势;随着土壤N元素含量的增加,两种藓类物种表现的趋势仍然与前者一致;随着土壤P元素含量的升高,大羽藓的N∶P显著下降,而无边提灯藓的N∶P则显著上升;此外,叶片N∶P均值为8.51,介于14和16之间,说明植物生长受N元素的限制。以上结果说明:两种藓类植物对土壤P元素利用上存在差异,导致两种藓类化学计量学特征的变化,且与全球尺度相比,该区域的藓类植物的生长共同受到了土壤N含量的限制作用。该研究结果为预测藓类植物营养元素的限制情况和生态适应机制提供了参考。     

高寒冰缘区15种藓类植物茎的形态结构研究

采用石蜡切片方法和扫描电镜方法,对高寒冰缘区生长的15种藓类植物茎的结构进行解剖学观察分析,为高寒冰缘区藓类植物在极端环境下的生存机理及其生态应用提供依据。结果表明:高寒冰缘区的15种藓类植物的茎分为表皮、皮部、中轴三部分。茎表皮细胞多为一层,长短不一,细胞壁表面粗糙,表面纹饰多为鳞片状、颗粒状、浅窝点状,表皮细胞的细胞壁加厚程度不同;皮部所占面积最大,大部分有内、外皮部的分化,细胞壁由外向内逐渐变薄,细胞由小到大又到小的整齐或镶嵌排列;中轴分化但其细胞数多少不一,细胞壁多具角隅加厚。研究认为,高寒冰缘区藓类植物具有典型的耐寒、耐旱结构特征,这些结构特征能够增强藓类植物的支撑和传导水分的作用,以抵御长期寒冷、干旱、多强风等恶劣环境;其中细胞的形状、数目、细胞表面的纹饰等微形态结构特征也具有潜在的分类学意义。     

藓类植物的无性繁殖及其应用

藓类植物的无性繁殖方式复杂多样,在多变、极端或不可预测的环境中具有明显优势.按形态特点,藓类植物的无性繁殖方式分为营养繁殖和特化的无性繁殖方式2种,特化的无性繁殖体包括掉落枝尖部、鞭状枝、易掉落的小枝、珠芽、假根芽胞或块茎、芽胞、脆折的叶片和内生芽胞等8种类型.本文综述了藓类植物中无性繁殖体的形态及其发生过程,介绍了苔藓植物无性繁殖在组织培养、分子生物学研究、沙漠结皮形成过程以及园林建设上的应用.     

宁夏贺兰山青海云杉林藓类植物C∶N∶P化学计量特征

为探究山地森林生态系统藓类C、N、P化学计量学特征及适应机制,本研究沿海拔梯度在宁夏贺兰山青海云杉林设置15个样地,分析藓类地上组织C∶N∶P化学计量特征及其与环境因子的关系。结果表明：藓类植物地上组织C、N、P含量与海拔无关,且均值分别为336.67、20.31和0.66 mg·g^-1;地上组织N∶P均值为33.4,说明藓类植物生长受P限制。藓类植物地上组织中C含量与土壤全氮含量呈显著正相关,与土壤全磷含量呈显著负相关;藓类植物地上组织中N含量与土壤有机碳和土壤全氮含量均呈显著负相关。冗余分析表明,环境因子对藓类地上组织化学计量特征的解释率为48.5%,主要环境影响因子为郁闭度、土壤全氮、土壤全磷;高郁闭度对藓类植物的生长具有促进作用。     

四川王朗国家级自然保护区藓类植物多样性研究

通过对中国四川王朗国家级自然保护区藓类植物连续2年的野外调查,结合室内鉴定及文献研究,分析了王朗自然保护区藓类植物区系组成及其特点,探讨藓类植物在不同林分类型(原始林、次生林、人工林)下的分布,并通过对王朗自然保护区与周围6个地区(玉树、佛坪、神农架、峨眉山、金佛山、大围山)藓类植物的比较,揭示王朗自然保护区藓类与周围地区藓类植物的关系。研究结果表明:(1)王朗自然保护区藓类植物物种丰富度较高,涵盖藓类植物33科、111属、227种(包括5个变种)。(2)王朗自然保护区藓类植物区系中,北温带分布、东亚分布及中国特有种占有优势。(3)王朗自然保护区不同林分类型下,藓类植物的种类有明显的差异性,共有属40个(占王朗自然保护区藓类总属数的36.04%),非共有属71个(占王朗自然保护区藓类总属数的63.96%),且不同林分类型下,次生林藓类物种丰富度最高、原始林次之、人工林最少。(4)王朗自然保护区与佛坪、峨眉山自然保护区的藓类植物具有明显的相似性,其中,属的相似性系数达到60%以上,种的相似性系数在35%以上。     

基于光合参数探讨四种藓类作水族箱植物的应用潜力

水生藓类植物适宜作为水簇箱植物,许多半水生藓类植物同样能够生长于水体环境中。中国东部地区的水生藓类植物种类不多,陆生藓类植物能否应用于水族箱中?为了回答这一问题,需要阐明陆生藓类植物对水体环境的适应能力。该研究测定了匐枝青藓(Brachythecium procumbens),弯叶灰藓(Hypnum hamulosum)、 白发藓(Leucobryum glaucum)和虎尾藓(Hedwigia ciliata)在与它们的自然生境相似条件下以及沉水环境下的光合参数,并应用直角双曲线模型拟合了它们的光-光合响应曲线。结果表明:这四种藓类植物在最大净光合速率(Pn)、光饱和点(LSP)和光补偿点(LCP)上存在很大差异。它们的最大净光合速率、光饱和点和光补偿点的变异范围分别为122.575～19.099 μmol CO₂·kg^-1 DW·s^-1、1 166.00～670.030 μmol·m^-2·s^-1和85.000～5.3 μmol·m^-2·s^-1。在沉水环境中生长30 d后,匐枝青藓、弯叶灰藓和白发藓的最大净光合速率分别是对照的110.78%、80.84%和109.63%,说明在实验周期里这三种藓类植物能够在水体环境中生存,而虎尾藓在水体中浸泡20 d后,其最大净光合速率仅为对照的5.25%,反映出该种植物并不适应水体环境。综上可知,四种藓类植物的光合速率与其形态结构和原生境条件有很大的关系,虽然匐枝青藓、弯叶灰藓和白发藓主要分布于陆生环境,但作为水族箱植物也具有一定的应用潜力。     

基于光合参数探讨四种藓类作水族箱植物的应用潜力（英文）

水生藓类植物适宜作为水簇箱植物,许多半水生藓类植物同样能够生长于水体环境中。中国东部地区的水生藓类植物种类不多,陆生藓类植物能否应用于水族箱中?为了回答这一问题,需要阐明陆生藓类植物对水体环境的适应能力。该研究测定了匐枝青藓(Brachythecium procumbens),弯叶灰藓(Hypnum hamulosum)、白发藓(Leucobryum glaucum)和虎尾藓(Hedwigia ciliata)在与它们的自然生境相似条件下以及沉水环境下的光合参数,并应用直角双曲线模型拟合了它们的光-光合响应曲线。结果表明:这四种藓类植物在最大净光合速率(Pn)、光饱和点(LSP)和光补偿点(LCP)上存在很大差异。它们的最大净光合速率、光饱和点和光补偿点的变异范围分别为122.575~19.099μmol CO2·kg-1DW·s-1、1 166.00~670.030μmol·m-2·s-1和85.000~5.3μmol·m-2·s-1。在沉水环境中生长30 d后,匐枝青藓、弯叶灰藓和白发藓的最大净光合速率分别是对照的110.78%、80.84%和109.63%,说明在实验周期里这三种藓类植物能够在水体环境中生存,而虎尾藓在水体中浸泡20 d后,其最大净光合速率仅为对照的5.25%,反映出该种植物并不适应水体环境。综上可知,四种藓类植物的光合速率与其形态结构和原生境条件有很大的关系,虽然匐枝青藓、弯叶灰藓和白发藓主要分布于陆生环境,但作为水族箱植物也具有一定的应用潜力。     

Application of iron nanoparticles and salicylic acid in in vitro culture of strawberries (<Emphasis Type="Italic">Fragaria</Emphasis> × <Emphasis Type="Italic">ananassa</Emphasis> Duch.) to cope with drought stress

The effects of iron nanoparticles and salicylic acid (SA) on strawberry (Fragaria?×?ananassa Duch.) plants in conditions of drought stress were surveyed under in vitro conditions to find the optimum combination for strawberry tissue culture. Cuttings of the Queen Elisa cultivar were surveyed in a three-way factorial experiment with three replications in 2015. The results showed that drought stress significantly affected all measured parameters of strawberry plantlets under in vitro condition in a negative way. SA compensated for the negative effects of drought stress on strawberry plantlets and improved their growth parameters under in vitro culture. Strawberry plantlets treated with iron nanoparticles were able to cope with stressful conditions better than untreated ones. This study found that iron, a micronutrient in plant growth and in vitro development, greatly influenced the plantlets’ growth parameters and other measured traits. These results indicate that the efficiency of tissue culture and in vitro culture of strawberries could be improved by increased application of iron in the form of nanoparticles. The results might also indicate that the application of iron nanoparticles along with SA can be a useful method for providing higher quantity and quantity in the in vitro culture of strawberries, and could be used for adapting strawberry plants to drought before transplanting them in the field.     

干旱与半干旱地区苔藓植物生态学研究综述

苔藓植物一般生活在阴湿的地方,但也有不少种类具有极强的耐旱性,在干旱和半干旱地区也有分布,在干旱和半干旱地区,影响苔藓植物分布的环境因子包括降水,pH值,CaCO3含量,植被盖度,有机质含量以及土壤质地等,其中起沙,固沙和生态小环境的改善中发挥着不可替代的作用。     

干旱胁迫对花生根系生长发育和生理特性的影响

以花育17号和唐科8号两个花生品种为试验材料,在防雨棚栽培池内进行土柱栽培试验,研究了中度干旱胁迫和正常供水处理下花生生育后期根系形态发育特征和生理特性.结果表明: 唐科8号具有较发达的根系及较高的产量和抗旱系数,花育17号根系对干旱胁迫的适应性小于唐科8号.两品种根长密度、根系生物量均主要分布于0～40 cm土层中,但同一土层内两品种根系性状存在差异.与正常供水处理相比,干旱胁迫处理使花育17号各生育期总根长、根系总表面积和总体积均降低,而唐科8号除花针期显著降低外,其余生育期均明显升高;干旱胁迫增加了两品种20～40 cm土层内根系生物量、根系表面积和体积,而降低了40 cm以下土层内各根系性状;干旱胁迫处理使两品种饱果期40 cm以下土层内根系活力降低,且花育17号降低幅度高于唐科8号.干旱胁迫下两品种生育后期根系发育和生理特性的差异表明其根系在干旱胁迫下对水分吸收和利用存在差异.     

Abscisic Acid and Desiccation Tolerance in Mosses

In higher plants the phytohormone ABA is involved in processes that are connected to water deficit, like stomatal closure or desiccation tolerance. In bryophytes, also containing ABA in their tissues, physiological functions remained uncertain for a long time. Quite recently, several papers have shown different effects of exogenously applied ABA: stomatal closure in Anthoceros, drought hardening in Funaria and production of the landform in Riccia. In all these cases the relevant conditions (water deficit) enhance the endogenous ABA level significantly. For induced desiccation tolerance, ABA serves as a mediator to induce specific proteins (dehydrins) strongly connected with this tolerance. Therefore, it can be concluded that in bryophytes ABA has the same function as in higher plants. It acts as a mediator in stress conditions.     

干旱-高钙对麻栎幼苗非结构性碳水化合物含量和分配的影响

土壤高钙胁迫是干旱-半干旱区影响树木生长的重要环境因子,为阐明干旱-高钙对树木非结构性碳水化合物(Non-structural carbohydrate,NSC)的含量和分配的影响,以麻栎幼苗为研究对象,阐明干旱和干旱-高钙条件对其生长、光合特征及非结构碳水化合物含量与分配的影响。结果表明:干旱显著降低麻栎幼苗生物量,而干旱-高钙处理较干旱进一步降低了麻栎生物量;干旱-高钙在处理初期就能显著抑制麻栎幼苗净光合速率,处理3个月后干旱和干旱-高钙处理的麻栎幼苗光合速率均显著低于对照;干旱处理麻栎幼苗平均非结构性碳水化合物含量增加19.90%,干旱-高钙处理麻栎幼苗整株的平均NSC含量则显著降低25.62%;干旱和干旱-高钙对麻栎幼苗NSC在不同器官间分配也产生不同影响,干旱条件下麻栎幼苗茎中NSC含量增加最多,较对照增加了52.34%,且淀粉的增高幅度(61.94%)高于可溶性糖(25.53%),干旱、高钙共同作用下麻栎幼苗全株平均NSC含量显著减少的同时,NSC积累在叶中,叶NSC含量显著提高32.31%,根、茎中NSC含量则分别显著降低了49.38%和35.31%。干旱-高钙胁迫降低麻栎幼苗NSC含量,且会减少NSC向枝干和根系分配。     

Intra‐annual plasticity of growth mediates drought resilience over multiple years in tropical seedling communities

Precipitation patterns are changing across the globe causing more severe and frequent drought for many forest ecosystems. Although research has focused on the resistance of tree populations and communities to these novel precipitation regimes, resilience of forests is also contingent on recovery following drought, which remains poorly understood, especially in aseasonal tropical forests. We used rainfall exclusion shelters to manipulate the interannual frequency of drought for diverse seedling communities in a tropical forest and assessed resistance, recovery and resilience of seedling growth and mortality relative to everwet conditions. We found seedlings exposed to recurrent periods of drought altered their growth rates throughout the year relative to seedlings in everwet conditions. During drought periods, seedlings grew slower than seedlings in everwet conditions (i.e., resistance phase) while compensating with faster growth after drought (i.e., recovery phase). However, the response to frequent drought was species dependent as some species grew significantly slower with frequent drought relative to everwet conditions while others grew faster with frequent drought due to overcompensating growth during the recovery phase. In contrast, mortality was unrelated to rainfall conditions and instead correlated with differences in light. Intra‐annual plasticity of growth and increased annual growth of some species led to an overall maintenance of growth rates of tropical seedling communities in response to more frequent drought. These results suggest these communities can potentially adapt to predicted climate change scenarios and that plasticity in the growth of species, and not solely changes in mortality rates among species, may contribute to shifts in community composition under drought.     

Moss Regeneration for Fen Restoration: Field and Greenhouse Experiments

Fen bryophytes are an important component of natural fens and should be included in fen restoration projects. The goal of this study was to examine the regeneration capabilities of nine bryophytes common to moderate-rich and poor fens in North America. A greenhouse experiment was carried out to examine the limitations and optima for the regeneration of fen bryophytes under different light and water regimes. A field experiment tested these same bryophytes in the presence of three potential nurse-plants. In the greenhouse experiment, the presence of shade increased regeneration success for eight out of nine species. A high water level was ideal for the regeneration of the majority of species tested. In the field experiment, Sphagnum species had the highest regeneration, and all species had higher regeneration under a dense canopy of herbaceous plants. Fen bryophytes show good potential for use in restoration projects because the tested bryophytes regenerated well from fragments.     

Phenotypic plasticity facilitates resistance to climate change in a highly variable environment

Increased summer drought will exacerbate the regeneration of many tree species at their lower latitudinal and altitudinal distribution limits. In vulnerable habitats, introduction of more drought-tolerant provenances or species is currently considered to accelerate tree species migration and facilitate forest persistence. Trade-offs between drought adaptation and growth plasticity might, however, limit the effectiveness of assisted migration, especially if introductions focus on provenances or species from different climatic regions. We tested in a common garden experiment the performance of Pinus sylvestris seedlings from the continental Central Alps under increased temperatures and extended spring and/or summer drought, and compared seedling emergence, survival and biomass allocation to that of P. sylvestris and closely related Pinus nigra from a Mediterranean seed source. Soil heating had only minor effects on seedling performance but high spring precipitation doubled the number of continental P. sylvestris seedlings present after the summer drought. At the same time, twice as many seedlings of the Mediterranean than the continental P. sylvestris provenance were present, which was due to both higher emergence and lower mortality under dry conditions. Both P. sylvestris provenances allocated similar amounts of biomass to roots when grown under low summer precipitation. Mediterranean seedlings, however, revealed lower phenotypic plasticity than continental seedlings under high precipitation, which might limit their competitive ability in continental Alpine forests in non-drought years. By contrast, high variability in the response of individual seedlings to summer drought indicates the potential of continental P. sylvestris provenances to adapt to changing environmental conditions.     

土壤干旱对黄土高原3个常见树种幼苗水分代谢及生长的影响

应用盆栽试验,在人工控制土壤水分条件下对黄土高原3个常见树种丁香(Syringa oblata)、杠柳(Perip-loca sepium)和连翘(Forsythia suspensa)幼苗的生长及水分生理代谢进行了研究.结果表明,随干旱胁迫程度加剧,各树种耗水量明显减少;不同树种单株耗水量差异明显,表现为:连翘>杠柳>丁香.3树种新生枝条生长和叶面积扩展速率明显受土壤含水量影响,均表现为适宜水分>中度干旱>严重干旱,且在同一胁迫水平下,连翘>杠柳>丁香.随干旱胁迫程度的加剧和干旱时间的延长,丁香、杠柳和连翘叶片的含水量、游离脯氨酸以及叶绿素含量均有不同程度的变化,连翘和杠柳的叶片含水量在3种水分条件下均明显高于丁香,杠柳叶片游离脯氨酸含量明显高于丁香和连翘,连翘体内脯氨酸含量最低,丁香和连翘的叶绿素a/b值随土壤含水量的减少逐渐降低,杠柳则表现出相反趋势.不同树种对土壤干旱和高温的响应机制不同,但它们都具有较强的抗旱能力,适应黄土高原干旱的自然条件.     

本地和外来草本物种对水分条件时间异质性的可塑响应

极端气候导致的干旱和水淹事件频发，影响了外来植物和本地植物的生长。为了解外来种和本地种植物对干旱和水淹事件发生顺序的响应，探讨草本植物适应水分时间异质性的策略，该文以美国蒙大拿州西部4种本地植物和4种外来植物为研究对象，将所有植物分别进行持续湿润(对照，CK)、水淹-干旱(I-D)和干旱-水淹(D-I)处理，并观测一系列形态和生物量特征的变化。结果表明：(1)与CK相比，D-I和I-D处理均显著降低了外来种的总生物量(P<0.05)。(2)D-I显著降低了本地种早期总生物量、后期地下生物量和根冠比，但显著提高了其后期的相对生长(P<0.05)。(3)D-I处理显著降低了所有植物的地下-地上生物量关系的异速指数，外来种异速指数显著高于本地种(P<0.05)。综上认为，极端事件(水淹和干旱)的发生顺序能改变外来植物和本地植物的生物量分配，早期干旱比后期干旱更容易减少植物生物量的积累，但能促进本地种后期的生长；本地种在环境胁迫下不被降低的总生物量表现说明维持表型稳定的能力较强；D-I处理下本地种和外来种地上和地下生物量关系的分配方式不同。