高寒草甸植物群落功能多样性对不同生长期干旱的响应机制

植物对干旱胁迫的响应表现为各功能性状的差异化表达。全球气候变化下,青藏高原地区降水格局发生改变,高寒草甸群落功能性状及功能多样性在不同生长期干旱事件下的响应机制对加深高寒草甸适应气候变化认知具有重要意义。以藏北高寒草甸为研究对象,设置截雨棚模拟生长季前期（ED）、中期（MD）和非生长季时期（ND）干旱事件,通过观测群落物种功能性状,分析高寒草甸群落功能多样性对不同生长期干旱的响应机制。结果表明：（1）叶片功能性状对干旱存在差异响应,表现为叶片小而厚且寿命长,同化速率降低,并受氮元素限制加剧;（2）生长季前期干旱对高寒草甸群落功能性状的影响最强,生长季中期干旱次之,非生长季干旱的影响最弱;（3）生长季干旱处理显著改变了群落的功能多样性,ED处理下功能分散度指数（FDiv）和功能分异度指数（FDis）显著降低（P<0.05）,而Rao二次熵指数（RaoQ）显著升高（P<0.05）,MD处理下功能均匀度指数（FEve）显著降低（P<0.05）;（4）相关性分析得出,群落功能性状与功能多样性对干旱的响应之间存在着联系。本研究发现高寒草甸植物功能性状与群落功能多样性对生长季前期和中期干旱存在差异化响应,指示着高寒草甸植物群落在响应不同时期干旱时可能采取不同的生存策略,即对生长季前期干旱采用耐旱策略、对生长季中期干旱采用避旱策略。探讨了高寒草甸植物群落功能多样性对不同生长时期干旱胁迫的响应机制,为预测未来季节性干旱事件对青藏高原高寒草甸植物功能性状、群落特征和功能多样性的影响提供科学依据。     

双翅目昆虫传粉研究进展

昆虫传粉不仅在自然生态系统中发挥着十分重要的作用,也和农业生态系统中产量密切相关。众所周知,膜翅目昆虫是最重要的传粉昆虫。双翅目昆虫分布广,物种多,数量大,也是一类十分重要的传粉昆虫,但其传粉作用未受到足够的重视。本文主要综述了双翅目传粉昆虫的主要种类、传粉效力、传粉特征、与植物的协同进化以及双翅目昆虫传粉的生态学意义。据记载双翅目昆虫中至少有71个科涉及虫媒种类,目前有资料显示访花昆虫类群中双翅目约有54 417种,按涉及的种数排序居于昆虫纲传粉昆虫目中第4位。尽管双翅目昆虫单次访问可携带花粉量相对较少(相比于膜翅目),但是较高访问速率及庞大的个体数量,保证了其作为有效传粉者的地位。传粉综合征能够有效揭示植物与传粉者的协同进化关系,尤其是对一些专化传粉现象(如五味子科-瘿蚊系统)和泛化传粉的深入研究,更加深了我们对协同进化的理解。就生态学意义而言,一方面双翅目传粉昆虫是膜翅目传粉昆虫的有益补充,另一方面在一些特殊环境中,双翅目昆虫具有不可替代的作用。当前传粉昆虫(包括双翅目)数量急剧下降,而且双翅目昆虫的传粉价值还利用较少。结合我国当前的研究现状提出了以下未来研究重点:1)加深双翅目传粉效力和适应意义的案例研究以明确双翅目昆虫在传粉体系中的地位;2)加强栖息地格局变化与昆虫多样性的研究以明确栖息地改变对昆虫的影响程度;3)梳理访花和传粉、专化传粉和泛化传粉等关系以更加明确双翅目昆虫在与植物协同进化中的作用;4)逐步深入探讨花粉浪费和花粉竞争以探究传粉策略和植物繁殖策略。这些努力将为双翅目传粉昆虫的知识普及、资源保护与利用研究等方面提供参考。     

海南羊山湿地的传粉网络及其季节动态

传粉网络是植物和传粉者之间形成的网状相互作用关系, 为理解群落物种多样性形成与维持机制提供了全新的视角。湿地是典型的群落交错区, 环境异质性与物种多样性都很高, 传粉网络可能比草地和森林等生态系统具有更复杂的结构。该研究针对海南岛海口市南郊的羊山湿地, 比较4个样地在旱季(5月)与雨季(8月)的传粉网络及其动态变化, 揭示湿地生态系统的传粉网络结构特征以及在干湿季的变化规律。结果表明, 羊山湿地传粉网络共有71种开花的植物, 131种传粉者, 传粉网络呈现低连接度、高嵌套度、中等网络特化程度的结构特征。在季节动态方面, 4个样地旱季的植物与传粉者种类高于雨季; 而传粉网络的连接度、嵌套度与网络特化程度没有明显的季节差异。白花鬼针草和水角等多个物种可同时在雨季和旱季开花, 使得植物-传粉者的种间关系虽然存在季节变化, 但传粉网络在旱季与雨季间的动态变化不大。总体而言, 羊山湿地物种多样性较高, 边缘效应较明显, 传粉网络结构较稳定。     

气候变暖对植物、传粉者及其相互作用的影响

植物和传粉者之间的相互作用,构成了错综复杂的传粉网络。近20年来,以全球变暖为主要特征的气候变化对开花植物、传粉昆虫和植物-传粉者相互作用的影响已成为研究热点。这些研究有助于更好地预测气候变暖对传粉网络乃至整个生态系统功能的影响。本文综述了气候变暖对开花植物个体的繁殖过程(物候、花吸引、报酬特征)和传粉昆虫活动及其相互作用产生的影响,以及在群落水平上对植物-传粉者网络产生的影响。气候变暖影响开花植物的花报酬(花蜜量、花粉的数量与质量)以及繁殖成功;温度升高对传粉昆虫的影响主要包括决定花粉流的传粉行为和传粉成功率。因此,气候变暖背景下植物、传粉者及其相互作用的改变会导致传粉网络结构发生变化,而传粉网络通过缓冲机制减少植物-传粉者间的错配而产生的负面效应,以维持自身稳定性。总体上,目前对气候变暖背景下植物-传粉者网络的研究较为薄弱,今后的研究应进一步关注以下问题:(1)气候变暖影响植物与传粉者物候匹配程度的原因、机制以及影响因素;(2)进一步探究不同生态系统中植物-传粉者的相互作用;(3)从群落水平或生态系统水平对植物-传粉者相互作用网络开展长期性研究。     

昆虫植食对植物有性生殖的影响

植物在个体发育的各个阶段都与不同的群落成员相互作用,如竞争的植物、有益的传粉者和敌对的植食动物。昆虫植食在各类生态系统中普遍存在,并可能对植物有性生殖产生各种影响。植食昆虫可通过对植物有性生殖结构的消耗直接对植物生殖产生影响,也可通过影响植物资源分配和花性状等改变传粉者服务,从而间接对植物有性生殖带来正面、负面或中性的影响。同一植物的植食昆虫和传粉者往往对植物的吸引性状 （如花大小、气味、颜色等）有相同的偏好,因此植食者与传粉者均能对植物有性生殖性状施加选择压力。本文从昆虫植食对植物有性生殖的直接影响、间接影响以及植食昆虫对植物有性生殖性状选择的影响三个方面进行综述,以期为昆虫植食和生物资源多样性保护相关研究提供参考。     

长期围封对疏勒河源区高寒草甸地表节肢动物多样性的影响

围封会促进退化高寒草甸植被和土壤环境恢复,长期围封也会导致生物多样性及其功能下降,影响高寒草甸生态系统的稳定,但这种影响会随着季节和生境条件变化而异。为了探究不同退化程度高寒草甸地表节肢动物群落变化对围封禁牧的响应,利用陷阱法调查了疏勒河源区沼泽化草甸、草甸和草原化草甸3种不同退化梯度高寒草甸围封禁牧和自由放牧处理下地表节肢动物群落结构变化。结果表明：围封禁牧对高寒草甸地表节肢动物群落组成及多样性的影响随生境条件不同而异。禁牧降低了沼泽化草甸地表节肢动物的物种丰富度,而提高了草甸和草原化草甸地表节肢动物的物种丰富度;围封禁牧对沼泽化草甸地表节肢动物群落结构影响较小,显著降低了草甸生境地表节肢动物活动密度、提高了地表节肢动物多样性和均匀度,相反,禁牧显著提高了草原化草甸生境地表节肢动物活动密度、降低其多样性和均匀度;豹蛛属1种是高寒草甸主要的地表节肢动物类群（相对多度为67.0%）,高寒草甸土壤水分有效性等生境条件不同影响了豹蛛属1种对围封禁牧的响应模式,进而影响了地表节肢动物群落结构变化。总之,高寒草甸退化程度影响了地表节肢动物多样性对禁牧和放牧的响应模式,沼泽化草甸适度放牧有利于提高地表节肢动物多样性及其功能。     

油橄榄传粉昆虫群落结构特征及多样性分析

油橄榄（Olea europaea）是一种木本油料作物,具有较高的药用价值和食用价值,昆虫授粉是其风媒授粉的一种有效补充。为了解我国油橄榄主要种植区花期传粉昆虫群落差异、结构组成及分布规律,对全国13个典型样地油橄榄花期传粉昆虫进行调查与采集,采用物种优势度及多样性等指数对传粉昆虫的群落结构及多样性进行分析,通过计算不同样地物种组成相似程度以量化传粉昆虫群落相似性。2020—2021年在全国油橄榄种植区共采集并鉴定出 3目 13科25属37种564只昆虫,优势度分析显示油橄榄优势传粉类群以蜜蜂科（Apidae）、食蚜蝇科（Syrphidae）或蜜蜂科、隧蜂科（Halictidae）两种组合常见;多样性分析显示重庆市万州区样地传粉昆虫多样性最高,西昌市海滨中路样地最低。群落相似性分析结果显示陇南市所属样地被聚为一簇;凉山州冕宁县样地、绵阳市松垭镇样地、重庆市奉节县样地、重庆市合川区样地的四个样地和西昌市南宁区样地、绵阳市三台县样地、重庆市万州区样地的3个样地分别被聚为一簇。因此,优势类群中的中华蜜蜂（Apis cerana cerana）、意大利蜜蜂（Apis mellifera ligustica）和灰带管蚜蝇（Eristalis cerealis）等传粉昆虫可应用于油橄榄传粉服务,同时为保证油橄榄传粉昆虫多样性及传粉效果,应避免不合理的人为干扰和生境破坏。基于传粉昆虫多样性和群落相似度调查,重庆市万州区样地的自然背景可为传粉昆虫适生生境改造提供参考,并建议将西昌市海滨中路样地列为重点保护对象。中华蜜蜂、意大利蜜蜂和灰带管蚜蝇等优势传粉昆虫将有效应对油橄榄花粉资源限制问题,后续油橄榄人工林的改造应着重考虑人为干扰和生境破坏对传粉昆虫的影响,而传粉昆虫对油橄榄座果率及产量提升的贡献可基于本研究展开进一步探索。综上所述,本研究初步探明我国油橄榄传粉昆虫群落结构特征及多样性,为利用昆虫辅助授粉解决油橄榄坐果率低下的问题提供新的视角。     

传粉昆虫行为的研究方法探讨

昆虫访花行为能对植物与传粉者相互作用的很多方面产生直接的影响, 因此相关研究对于理解植物的多样性和植物生殖生态过程非常重要。本文介绍了主要的传粉昆虫种类及其特征, 并探讨了昆虫访花行为及其影响因素的研究方法。同时还探讨了进行夜间传粉昆虫和群落水平上昆虫行为研究的方法, 以期能为植物-传粉者相互作用这一多学科交叉领域的学者, 尤其是植物学家和昆虫学家提供有益的参考资料。     

不同强度牦牛放牧对青藏高原高寒草地土壤和植物生物量的影响

放牧作为家畜饲养方式之一,是草地最简单、有效的利用方式,放牧中的家畜对草地生态系统的影响是全球畜牧生态学研究的焦点。过度放牧导致草地退化严重,虽然在青藏高原地区已有较多放牧对草地影响的研究,但探究连续4年放牧对高寒草地生态系统影响的定位实验却鲜见报道。本研究在青藏高原东缘选取典型高寒草地,使用高原特有且分布最广的牦牛作为大型草食放牧家畜,设置了4个牦牛放牧强度（禁牧：无放牧、轻牧：1头/hm²、中牧：2头/hm²和重牧：3头/hm²）以研究其对高寒草地土壤和植物功能的影响。开展4年试验后的结果表明：放牧条件下土壤含水率显著增加;而土壤容重、全磷和有机质含量对放牧强度均无显著性响应;土壤全氮和pH的响应主要在表层0-20 cm,其中全氮为轻牧和重牧处理分别显著高于中牧,中牧处理下的土壤pH为显著高于轻牧;土壤全钾含量在禁牧处理中显著高于放牧处理;而土壤有效氮和速效钾均为中牧处理显著高于禁牧;放牧可以显著降低植物地上生物量。牦牛放牧强度显著影响土壤含水率、有效养分和植物地上生物量,而对其它土壤理化性质影响较弱。本研究结果揭示放牧对高寒草地土壤理化性质和植物地上生物量的影响,为青藏高原高寒草甸生态系统保护、可持续管理和合理放牧率提供理论依据。     

豫西山地传粉昆虫物种多样性对地貌和季节的响应

通过野外试验布设陷阱捕捉传粉昆虫,调查豫西山地春秋两季不同人为强度土地利用下的传粉昆虫多度、丰富度等,并结合实地的植被群落特征,研究传粉昆虫的多样性、群落相似性及物种重要度(重要值).结果表明: 春秋两季累计捕获传粉昆虫23275头,优势类群多为膜翅目、双翅目等.春季捕获传粉昆虫的数量约是秋季数量的1.8倍,且两个季节传粉昆虫的个体多度差异达到极显著水平.春秋季捕获的双翅目、膜翅目相对多度较高,且季节之间变化不大.鳞翅目、鞘翅目个体数量较少,其中春季捕获的鳞翅目数量极少,秋季的鞘翅目数量也偏低.丘陵的Shannon多样性指数、Pielou均匀度指数和Margalef丰富度指数要明显高于其他两种地貌类型;山地的优势度指数和物种的个体数均高于其他两种地貌类型.不同地貌传粉昆虫的多样性和优势度差异达到显著水平,丘陵传粉昆虫多样性与山地和平原均有显著差异,山地的优势度与丘陵有显著差异.季节变化对传粉昆虫群落影响较小,但群落内各物种组成之间存在一定差异.从Morisita-Horn和Sørensen相似系数来看,仅有膜翅目群落在山地和丘陵间有显著差异.春秋季的物种重要值也存在差异,春季中胡蜂科的重要值最高,寄蝇科、果蝇科次之;秋季中花蝇科重要值最高,胡蜂科次之.传粉昆虫与农作物密切相关,影响着作物生长和粮食产量.在种植作物过程中因地制宜,合理规划土地利用方式,根据不同地貌内的植被类型适当调整物种组成,保护其多样性,对维持农业可持续发展和提高生态系统服务意义重大.     

Long-term fencing improved soil properties and soil organic carbon storage in an alpine swamp meadow of western China

Overgrazing significantly affects alpine meadows in ways similar to grasslands in other areas. Fencing to exclude grazers is one of the main management practices used to protect alpine meadows. However, it is not known if fencing can improve soil properties and soil organic carbon storage by restraining grazing in alpine meadows. We studied the long-term (nine-year) effects of fencing on soil properties, soil organic carbon and nitrogen storage compared with continued grazing in an alpine swamp meadow of the Qinghai–Tibetan Plateau, NW China. Our results showed that fencing significantly improved vegetation cover and aboveground biomass. There were significant effects of fencing on pH value, soil bulk density, and soil moisture. Long-term fencing favored the increase of soil total nitrogen, soil organic matter, soil organic carbon, soil microbial biomass carbon and soil carbon storage compared with grazed meadows. Our study suggests that long-term fencing to prevent disturbance could greatly affect soil organic carbon and nitrogen storage with regard to grazed meadows. Therefore, it is apparent from this study that fencing is an effective restoration approach of with regard to the soil’s storage ability for carbon and nitrogen in alpine meadow of the Qinghai–Tibetan Plateau.     

Moderate grazing increased alpine meadow soils bacterial abundance and diversity index on the Tibetan Plateau

The response of grassland soil bacterial community characteristics to different grazing intensities is central ecological topics. However, the underlying mechanisms between bacterial abundance, diversity index, and grazing intensity remain unclear. We measured alpine meadow soil bacterial gene richness and diversity index under four grazing intensities using 16S rDNA sequence analysis on the Tibetan Plateau. The results suggest that extreme grazing significantly decreased alpine meadow both bacterial gene abundance and diversity index (p < .05). The lowest operational taxonomic unit numbers were 3,012 ± 447 copies under heavy grazing in the growing season. It was significantly lower than heavy grazing with approximately 3,958 ± 119 copies (p < .05). The Shannon index for medium and high grazing grassland bacterial diversity was slightly higher than for light grazing in the growing season. Furthermore, the lowest index was approximately 9.20 ± 0.50 for extreme grazing of grassland in the growing season. The average bacterial gene abundance and diversity index in the dormancy period were slightly higher than that in the growing season. Soil bulk density, pH, ammonium, and nitrate nitrogen were the main positive factors driving grazed grassland bacterial communities. Our study provides insight into the response of alpine meadows to grazing intensity, demonstrating that moderate grazing increases bacterial community diversity in grazed grasslands.     

Grazing increases functional richness but not functional divergence in Tibetan alpine meadow plant communities

Plant community diversity and ecosystem function are conditioned by competition among co-occurring species for multiple resources. Previous studies suggest that removal of standing biomass by grazing decreases competition for light, but coincident grazing effects on competition for soil nutrients remain largely unknown in Tibetan rangelands where grazing tends to deplete soil phosphorus availability. We measured five functional traits indicative of plant productivity and stoichiometry leaf carbon concentration (LCC), leaf nitrogen concentration (LNC), leaf phosphorus concentration (LPC), specific leaf area (SLA), leaf dry matter content (LDMC) for component species of plant communities in grazed and ungrazed plots in five Tibetan alpine meadows. We examined the diversity of traits singly Rao index of functional diversity (FDrao) and in aggregate functional richness (FRic), functional divergence (FDiv), and functional evenness (FEve) in response to grazing. We tested whether foliar trait diversity increases with nutrient competition but decreases with light competition when competitive exclusion is reduced by grazing. The FDrao of LPC significantly increased under grazing, but FDrao for LCC, LNC and SLA tended to decrease. The FDrao of LDMC increased at the drier site but decreased at the wettest site. There was a strong negative association between increase in FDrao of LPC and decrease in soil nutrients, especially soil phosphorus availability. The FRic for all five traits together increased with species diversity following grazing, but neither FDiv nor FEve differed significantly between grazed and ungrazed plots at most sites. Grazing in Tibetan alpine meadows tends to increase competition for soil phosphorus while decreasing competition for light, resulting in an increase in the functional richness in grazed plant communities without any significant changes in the overall functional diversity of foliar traits. Our study highlights the potential importance of grazing mediated competition for multiple resources in alpine meadow ecosystems.     

青藏高原不同草地利用方式对土壤粒径分形特征的影响

研究青藏高原草地土壤粒径结构分形特征,为该地区土壤质量评价和生态恢复提供科学依据。以青藏高原4种高寒草地(放牧、围栏禁牧、围栏禁牧+补植、未干扰)为对象,采用分形理论,研究不同利用方式对高寒草地土壤颗粒组成及分形特征的影响,明确土壤粒径分形特征的影响因素。结果表明：与放牧和围栏禁牧+补植相比,围栏禁牧草地中黏粒和粉粒体积分数分别增加了60%—91.1%、43.5%—80.1%,禁牧能够促进土壤砂粒向黏粒和粉粒转变。不同草地利用方式对分形维数有显著影响,单重分形维数D值依次为放牧草地<围栏禁牧+补植草地<未干扰草地=围栏禁牧草地,多重分形维数,包括信息维数D₁、信息维数/容量维数比值D₁/D₀和关联维数D₂依次为放牧草地<围栏禁牧+补植草地<围栏禁牧草地<未干扰草地。单重分形维数D与土壤黏粒、粉粒呈极显著正相关(P<0.01);砂粒、黏粒、粉粒、有机碳和全氮是多重分形维数的限制因素。信息维数D₁、信息维数/容量维数比值D₁...     

Grazing buffers the effect of climate change on the species diversity of seedlings in an alpine meadow on the Tibetan Plateau

Climate change predominated by warming over the past decades has affected plant biodiversity, distribution, and ecosystem functioning in alpine grasslands. Yet, little is known about the interactive effect of climate change and grazing on biodiversity and ecosystem functioning. Here, we conducted a vegetation translocation experiment (ten soil‐vegetation blocks were translocated from high‐altitudinal site 3,245 m to low‐altitudinal site 3,045 m) combined with grazing treatment in an alpine meadow on the Tibetan Plateau. The results showed that (a) translocation induced effect of climate change from harsh, high‐altitudinal site to benign, low‐altitudinal site significantly promoted species richness, and density of asexual and sexual seedling, with an increase in the proportion of asexual recruitment to sexual recruitment; (b) grazing decreased the proportion of asexual seedling to sexual recruitment within community, led to a shift in the dominant plant functional groups from graminoids and legumes to forbs; and (c) grazing partly offset the increased species richness of seedling, but not seedling density, induced by climate change. These findings suggest that moderate grazing may buffer the effect of climate change on the plant community composition, and thus, functional role in alpine meadows. Further understanding the influence of climate change on grassland ecosystems needs to consider the non‐additive effect of grazing and climate change to sustainability of grassland services.     

青藏高原高寒草地植物物种丰富度及其与环境因子和生物量的关系

在青藏高原进行了大范围的群落调查 ,研究高原的两种主要草地群落类型———高寒草甸和高寒草原的植物物种丰富度及其变化。结果表明 :(1)在 5 0个样地 2 5 0个 1m× 1m的样方中 ,共出现 2 6 7种植物 ,其中高寒草甸179种 ,高寒草原 135种。在高寒草甸 ,1m2 样方内物种数最多为 32种 ,最少的仅为 3种 ;在高寒草原 ,物种数最多为 18种 /m2 ,最少的仅为 2种 /m2 。 (2 )物种丰富度随经度和纬度的增加呈增加趋势 ;随海拔的上升呈减少趋势。对物种丰富度与环境因子之间进行逐步回归 ,发现物种丰富度与生长季降水和温暖指数呈显著正相关。 (3)物种丰富度与地上生物量呈显著正相关。     

Plant community and soil available nutrients drive arbuscular mycorrhizal fungal community shifts during alpine meadow degradation

Arbuscular mycorrhizal fungi (AMF) play an important role in maintaining the function and sustainability of grassland ecosystem, but they are also susceptible to environmental changes. In recent decades, alpine meadows on the Tibetan Plateau have experienced severe degradation due to the impact of human activities and climate change. But it remains unclear how degradation affects the AMF community, a group of functionally important root associated microorganisms, which potentially limit the development and application of microbial technologies in the restoration of degraded grasslands. In this study, we investigated AMF communities richness and composition in non-degraded (ND), moderately degraded (MD) and severely degraded (SD) alpine meadows on the Tibetan Plateau, and then explored their main biotic and abiotic determinants. Alpine meadow degradation significantly reduced plant community biomass, richness, soil organic carbon, total nitrogen, total phosphorus, available nitrogen and available phosphorus, but increased soil pH. AMF community composition and the iesdominant family and genera differed significantly among different degradation stages. Grassland degradation shifted the AMF community composition in favor of Claroideoglomus over Rhizophagus, and resulted in a marked loss of Glomeraceae and the dominance of Diversisporaceae. Alpine meadow degradation significantly increased AMF hyphal density and richness, likely working as a plant strategy to relieve nutrient deficiencies or loss as a result of degradation. The structural equation model showed that AMF community richness and composition were significantly influenced by plant community, followed by soil available nutrients. Soil available nutrients was the key contributor to the increased AMF hyphal density and richness during grassland degradation. Our findings identify the effects of alpine meadow degradation on AMF richness and highlight the importance of the plant community in shaping the AMF community during alpine meadow degradation. These results suggest that plant community restoration should be the primary goal for the ecological restoration of degraded alpine meadows, and these soil functional microorganisms should be simultaneously integrated into ecological restoration strategies and management.     

The maintenance of offspring diversity in response to land use: sexual and asexual recruitment in an alpine meadow on the Tibetan Plateau

Human activities have caused dramatic land use changes, impacting plant community composition, diversity and function. Fertilization and grazing are the two most common land use modes in grasslands. To understand the effects of grazing and fertilization on sexual and asexual recruitment in alpine grasslands, we conducted a demographic field investigation of species recruitment in an alpine meadow on the Tibetan Plateau. Grazing and fertilization had different effects on the quantity and diversity of sexual and asexual recruitment. Sexual recruitment increased significantly in grazed plots, but decreased significantly in fertilized plots. Asexual recruitment increased significantly in fertilized plots, but decreased significantly in grazed plots. For functional groups, grazing significantly reduced offspring recruitment of graminoids, but significantly increased offspring recruitment of forbs and legumes; fertilization significantly reduced offspring recruitment of forbs and legumes, but significantly increased offspring recruitment of graminoids. Furthermore, offspring diversity from sexual recruitment was significantly higher than from asexual recruitment in grazed plots, and as compared to non‐grazed and fertilized grasslands. Our studies indicate that moderate grazing disturbance has positive effects on seedling recruitment and offspring diversity, and fertilization has negative effects on offspring diversity, but may significantly increase asexual recruitment.     

放牧对青藏高原东部两种典型高寒草地类型凋落物分解的影响

为认识放牧对青藏高原东部中生性的高寒草甸草地和半湿生的沼泽草地凋落物分解的影响,在这两种草地上分别设置了围栏和放牧样地,研究了其各自的混合凋落物样品和4个优势物种(发草Deschampsiacaespitos、鹅绒委陵菜Potentilla anserine、木里苔草Carexmuliensis、藏嵩草Kobresiatibetica)凋落物的分解和养分释放动态,这4个优势物种也大致代表了当地沼泽草地生态系统在放牧和气候变暖驱动下逆行演替不同阶段的优势物种类群。结果表明,各优势物种凋落物的分解速率有显著差异;放牧在总体上促进了凋落物的分解,但不同物种的响应有所不同;放牧对凋落物C的释放影响不显著或有抑制作用,但对N、P的释放具有一定促进作用。对各优势物种凋落物分解和养分释放模式的分析表明,群落逆行演替过程中,凋落物分解和C释放加速,可能促进沼泽湿地退化的正反馈效应。草甸草地的退化标志物种鹅绒委陵菜具有较高的凋落物质量和分解速度,反映了中生条件下植物应对牲畜啃食采用"逃避"而非"抵抗"策略的趋向。     

放牧干扰下高寒草甸物种和生活型丰富度与地上及地下生物量的关系

明晰放牧干扰下高寒草甸植物丰富度与生物量的相关关系,为草地植物不同生长时期生物量的预测提供依据。设置6个放牧强度样地,连续3a放牧,2014年进行3个季节(6月、8月、10月)的植物丰富度和地上、地下生物量调查,对比分析放牧干扰下物种和生活型丰富度(生活型的种类)分别与地上、地下生物量的相关关系。结果表明:(1)物种和生活型丰富度与地上生物量均受放牧强度的显著影响,物种丰富度仅在8月与放牧强度显著负相关,生活型丰富度在10月随放牧强度单峰变化,地上生物量在不同季节均与放牧强度显著负相关,而地下生物量与放牧强度无关。(2)物种丰富度与地上和地下生物量均受季节的显著影响,物种丰富度和地上生物量仅在低强度放牧区随季节呈单峰变化,地下生物量在中等强度放牧区随季节呈单峰变化;生活型丰富度与季节无关。(3)放牧干扰前物种和生活型丰富度与地上和地下生物量均显著正相关。3a放牧后仅在8月,物种丰富度只与地上生物量显著正相关,生活型丰富度与地上和地下生物量均显著正相关。(4)对于不同放牧强度,物种丰富度仅在低强度放牧区与地上生物量显著正相关,而生活型丰富度在所有放牧强度区均与地上生物量显著正相关。综上所述,放牧干扰扰乱了高寒草甸丰富度与生物量之间的关系,尤其影响了物种丰富度与地下生物量之间的相关关系。生活型丰富度与地上生物量之间的显著关系不受放牧强度干扰,使生活型丰富度在预测生物量方面表现出优势。