松嫩草地牛粪中大型节肢动物种类组成及种群动态变化

研究并分析了松嫩草地牛粪中大型节肢动物种类组成及动态变化.结果表明,在草地牛粪中共调查到大型节肢动物7目20科43种,以鞘翅目、膜翅目和双翅目为主.依其食性不同,分为粪食性型(8科19种)、腐食性型(4科4种)、植食性型(4科6种)、捕食性型(5科11种)、杂食性型(2科5种)、尸食性型(1科1种)和寄生性型(1科1种).根据鞘翅目金龟总科中营粪食性型生活的粪甲虫对牛粪利用方式的不同,分为外生粪甲虫(6种)、内生粪甲虫(5种)、远生粪甲虫(2种)和偷窃寄生粪甲虫(1种).除了双顶嗡蜣螂,牛粪中大型节肢动物数量与鲜牛粪重量具有显著正相关关系(p＜0.01).粪食性型种类数和个体数量随鲜牛粪堆置时间的延长而迅速减少,7d后消失,其个体总数量与鲜牛粪堆积时间呈显著的负相关关系(p＜0.01),而与牛粪含水量呈显著正相关关系(p＜0.01),各种大型节肢动物因其食性不同在鲜牛粪中占据不同的生态位.鲜牛粪中大型节肢动物以粪食性型占绝对优势,而干牛粪中则以捕食性型和杂食性型为主.牛粪中大型节肢动物种群季节动态变化受温度、降水量与牛粪含水量影响,鲜牛粪中大型节肢动物优势种为直蜉金龟(69.25%)和肖秋家蝇与东方角蝇幼虫(25.12%).4、5、6月份和9月份,优势种为直蜉金龟,7月和8月份,优势种为蝇幼虫.     

青藏高原纳木错高寒草甸生态系统碳交换对多梯度增水的响应

高寒草甸是青藏高原的主要草地类型, 对青藏高原生态系统碳收支具有重要的调节作用。目前, 有关高寒草甸生态系统碳交换对气候变化的响应所知甚少, 尤其是降水变化会如何影响高寒草甸碳交换过程的相关研究非常匮乏。该文作者于2013和2014年的生长季(5-9月)在青藏高原纳木错地区高寒草甸进行多梯度人工增水实验, 设置对照和5个水分添加梯度, 分别增加0%、20%、40%、60%、80%和100%的降水, 以研究高寒草甸生态系统在不同降水量条件下的碳交换变化。增水处理后, 各处理梯度之间的土壤温度没有显著差异, 而土壤含水量在不同增水处理后出现显著变化, 相对于对照, 增水幅度越大, 对应的土壤含水量越高。综合2013和2014年的观测结果, 高寒草甸生态系统整体表现为碳吸收, 在20%增水处理中, 净生态系统碳交换(NEE)达到最大值, 随着模拟的降水梯度进一步增加, NEE逐渐下降; 增水处理对生态系统呼吸(ER)无显著影响; 总生态系统生产力(GEP)的变化趋势与NEE一致, 即随着增水梯度增大, GEP先增加, 并在增水20%处理达到最大值, 随后GEP开始降低。研究表明, 在高寒草甸生态系统, 水分是影响GEP和NEE的重要因素, 对ER影响较弱; 未来适度的增水(20%-40%)能促进高寒草甸生态系统对碳的吸收。     

Responses of ecosystem carbon exchange to multi-level water addition in an alpine meadow in Namtso of Qinghai-Xizang Plateau,China

高寒草甸是青藏高原的主要草地类型, 对青藏高原生态系统碳收支具有重要的调节作用。目前, 有关高寒草甸生态系统碳交换对气候变化的响应所知甚少, 尤其是降水变化会如何影响高寒草甸碳交换过程的相关研究非常匮乏。该文作者于2013和2014年的生长季(5-9月)在青藏高原纳木错地区高寒草甸进行多梯度人工增水实验, 设置对照和5个水分添加梯度, 分别增加0%、20%、40%、60%、80%和100%的降水, 以研究高寒草甸生态系统在不同降水量条件下的碳交换变化。增水处理后, 各处理梯度之间的土壤温度没有显著差异, 而土壤含水量在不同增水处理后出现显著变化, 相对于对照, 增水幅度越大, 对应的土壤含水量越高。综合2013和2014年的观测结果, 高寒草甸生态系统整体表现为碳吸收, 在20%增水处理中, 净生态系统碳交换(NEE)达到最大值, 随着模拟的降水梯度进一步增加, NEE逐渐下降; 增水处理对生态系统呼吸(ER)无显著影响; 总生态系统生产力(GEP)的变化趋势与NEE一致, 即随着增水梯度增大, GEP先增加, 并在增水20%处理达到最大值, 随后GEP开始降低。研究表明, 在高寒草甸生态系统, 水分是影响GEP和NEE的重要因素, 对ER影响较弱; 未来适度的增水(20%-40%)能促进高寒草甸生态系统对碳的吸收。     

模拟增温对西藏高原高寒草甸土壤供氮潜力的影响

过去几十年青藏高原呈现显著的增温趋势,冬季增温幅度显著高于生长季的季节非对称特征。气候变暖会对生态系统氮素循环产生重要影响,但关于全年增温与冬季增温对高寒生态系统氮循环的不同影响仍缺乏研究。在青藏高原高寒草甸区开展模拟增温试验,研究季节非对称增温对高寒草甸生态系统氮循环的影响。该试验布设于2010年7月,设置3种处理(不增温、冬季增温与全年增温)。研究结果发现,开顶箱增温装置造成了小环境的暖干化:显著提高了地表空气温度和表层土壤温度,降低了表层土壤含水量。冬季增温会加剧土壤中氮素的流失,所以在经历了冬季增温后土壤氮含量显著降低;在生长季节,土壤氮素周转速率受土壤水分的调控,在降雨较少的季节,增温引起的土壤含水量降低会抑制土壤氮周转速率。对于土壤微生物量而言,高寒草甸土壤微生物量碳表现出明显的季节动态,在生长季旺盛期较低,在生长季末期和初冬季节反而较高,这说明为了降低对土壤养分的竞争,高寒草甸植物氮吸收与土壤微生物氮固持在时间上存在分离。研究结果表明,冬季增温导致的土壤养分含量变化会影响随后生长季植物群落的生产力、结构组成与碳氮循环等过程,对生态系统过程产生深远的影响。     

藏北高原典型植被样区物候变化及其对气候变化的响应

植被物候作为陆地生态系统对气候变化的响应和反馈的重要指示,已成为区域或全球生态环境领域研究的热点。基于非对称高斯拟合方法重建了2001—2010年MODIS EVI时间序列影像,利用动态阈值法提取藏北高原植被覆盖2001—2010年每年关键物候参数。选取研究区内东部高寒灌丛草甸、中部高寒草甸及西部高寒草原和高寒荒漠4种典型植被类型,并结合附近的4个气象台站气候资料,分析典型植被物候在近10a对关键气候因子的响应特征。研究结果表明:(1)4种不同典型植被的物候特征(EVImax降低、返青期延后和生长季长度缩短)均表现出高寒灌丛草甸→高寒草甸→高寒草原→高寒荒漠草原的过渡;(2)藏北高原近10a的年平均气温及春、夏、冬三个季度的平均气温均呈显著升高的趋势,升温幅度在0.8—3.9℃/10a,降水减少趋势不显著,在这种水热条件下典型植被均表现出返青提前(7.2—15.5d/10a)、生长季延长(8.4—19.2d/10a)的趋势,而枯黄出现时间为年际间自然波动;(3)高寒灌丛草甸EVImax主要受春季降水量和气温影响,且降水的影响程度大于气温;对高寒草甸植被而言,春、夏季的气温和降水均有较大的影响;而高寒草原和高寒荒漠草原主要受夏季平均气温和降水量影响;(4)高寒灌丛草甸的返青时间主要受前一年秋季降水量的影响,相关系数达-0.579;而高寒草甸、高寒草原和高寒荒漠草原主要受春季平均气温影响,高寒荒漠草原的特征最为明显(r=-0.559)。     

粪甲虫对绢蒿荒漠春秋两季牛粪分解的影响

为明确绢蒿荒漠草地牛粪的分解规律,分别在5月(春季)和9月(秋季)设置不同堆置时间点(0、7、29、48、58 h),明确粪便理化性质变化规律,同时设置不同开口的网笼(无网笼、上下开口、上开口、全封口),探讨各生态功能类群粪甲虫对粪便分解的影响。结果表明: 春季的粪甲虫种类数显著高于秋季,秋季的粪甲虫数量显著高于春季。春季粪便的水分、全碳、全氮、全磷下降主要集中在0～29 h,堆置29 h时粪便的水分、全碳、全氮、全磷分别降低39.4%、13.9%、32.1%、26.7%。堆置58 h时粪便的中性洗涤纤维和酸性洗涤纤维分别显著降低8.0%和16.0%。秋季粪便的水分、中性洗涤纤维、酸性洗涤纤维在0～7 h内下降速度最快,堆置7 h时分别降低85.6%、10.2%和20.2%。7～58 h内中性洗涤纤维和酸性洗涤纤维上升,58 h时粪便的中性洗涤纤维和酸性洗涤纤维分别升高20.0%和13.7%。全碳、全氮和全磷的分解主要集中在0～29 h内,堆置29 h时分别降低17.5%、55.0%和64.8%。不同开口的网笼有效阻止了相应生态功能类群粪甲虫的进驻,随着粪甲虫生态功能类群的增加,粪便分解速度加快,无网笼状态下的粪便分解速度显著高于其它处理。粪甲虫种类、数量以及粪便堆置时间均显著影响牛粪的分解过程。     

降水量变化对藏北高寒草地养分限制的影响

生态系统净初级生产养分限制的模式是现代生态学关注的重要问题。养分的可利用性是草原生态系统生产力动态变化的关键决定因素, 但土壤养分可利用性与整个生态系统中养分限制之间的关系尚不清楚。该研究通过在藏北降水梯度上4种类型高寒草地(从东到西依次是高寒草甸、高寒草甸草原、高寒草原和高寒荒漠草原)设置氮磷养分添加试验, 系统研究氮磷养分添加对不同类型高寒草地的影响, 并探讨降水梯度上高寒草地的氮磷限制模式。结果表明: (1)氮磷添加对不同高寒草地的影响存在差异: 氮添加显著提高了高寒草甸和高寒草甸草原地上生产力, 而对高寒草原和高寒荒漠草原无影响; 单独磷添加对4种高寒草地均无显著影响, 而氮磷添加对4种高寒草地地上生产力均有促进作用。(2)通过计算氮磷共同限制指数发现: 随着降水量减少, 高寒草地氮限制指数从1.18逐渐降低到0.52-0.64, 养分限制模式从氮限制过渡到氮磷共同限制; 磷限制指数在高寒草甸草原和高寒草原为负值, 说明单独磷添加对高寒草甸的生产力有负向作用, 高寒草甸主要受氮限制; 高寒草甸草原介于氮限制与氮磷限制之间, 受到氮磷共同限制, 单独磷添加有负向作用; 高寒荒漠草原受到氮磷共同限制。研究表明, 高寒草地氮磷限制模式存在环境梯度上的递变规律, 随着降水量减少, 高寒草地养分限制模式从氮限制逐渐过渡到氮磷共同限制。由此推断, 未来气候变化条件下氮沉降增加对不同类型高寒草地的影响可能存在差异。同时, 利用养分添加恢复不同类型退化高寒草地时也应将氮磷限制模式的差异考虑进去。     

青藏高原不同高寒草地类型土壤酶活性及其影响因子

土壤酶活性作为生态系统养分循环的关键因素, 是反映土壤质量和生态系统功能的重要指标, 但是关于高寒草地生态系统中不同草地类型间酶活性的差异研究还很少。因此, 该研究在藏北高寒草地选择高寒草甸、高寒草原、高寒草甸草原、高寒荒漠草原和高寒荒漠5种草地类型进行野外原位调查和采样, 测定了涉及碳(C)、氮(N)和磷(P)循环的14种酶的活性, 并建立了高寒草地酶活性与土壤微生物和土壤理化性质等环境因子的关系。结果表明: C循环酶(蔗糖酶、纤维素酶、β-葡萄糖苷酶、多酚氧化酶和过氧化物酶)和P循环酶(碱性磷酸酶)在不同高寒草地类型间活性差异明显, N循环酶中仅芳香氨基酶和亚硝酸盐还原酶两种酶在不同高寒草地类型间活性差异明显。同时, C、N和P循环酶之间存在一定的相关关系, 其中, 蔗糖酶和碱性磷酸酶、纤维素酶和α-乙酰氨基葡萄糖苷酶活性显著正相关, 多酚氧化酶与亚硝酸还原酶和β-乙酰氨基葡萄糖苷酶活性显著负相关。在测定的19个环境指标中, 土壤有机质(SOM)含量、革兰氏阴性菌数量、土壤N和P含量计量比、革兰氏阳性菌数量、细菌数量、放线菌数量、全氮含量、真菌数量是影响土壤酶活性的关键因子, 且SOM含量的影响最大(解释量为11.9%)。综上所述, 不同高寒草地类型间C循环酶、P循环酶和两种N循环酶(芳香氨基酶和亚硝酸还原酶)活性差异显著, SOM含量、微生物数量和N含量等是影响高寒草地生态系统土壤酶活性的关键因子。     

河西走廊中部戈壁地表甲虫群落动态变化及其影响因素

地表甲虫是戈壁主要的地表昆虫类群, 但我们对其种属组成和活动节律的认识还很有限。2018-2020年1-12月我们利用陷阱法对河西走廊中部典型砾质戈壁地表甲虫种类及数量进行了连续观测, 并测定了该区降水和温度。本文研究发现: (1)戈壁地表甲虫由步甲科、叶甲科、象甲科、粪金龟科和拟步甲科5科21种组成, 阿小鳖甲(Microdera kraatzi alashanica)、戈壁琵甲(Blaps gobiensis)和波笨粪金龟(Lethrus potanini)是优势地表甲虫种; (2)戈壁地表甲虫活动节律存在明显年季变异, 地表甲虫的活动期在3-10月, 地表甲虫活动密度的最大值出现在4-7月, 而物种丰富度的最大值均在5月出现; (3)降水增多的2019年地表甲虫的活动密度明显增加, 且2019年地表甲虫物种丰富度和多样性指数显著高于2018年; (4)地表甲虫的取食类型和个体大小影响它们的活动节律, 降水增多的年份提高了植食性的象甲科和部分拟步甲科的活动密度, 而一些拟步甲科的活动密度对降水的响应存在一定的滞后性; (5)降水和温度变化强烈影响地表甲虫活动节律, 地表甲虫的个体数和物种数与月降水量和月平均温度呈显著的二次曲线和指数关系, 植食性和捕食性甲虫对降水及温度变化响应较腐食性甲虫敏感, 大甲虫对降水变化的响应较中甲虫和小甲虫敏感。总之, 降水及温度变化影响了戈壁地表甲虫的活动节律, 而不同地表甲虫种对二者的响应因其生理生态特征不同而异, 从而影响了地表甲虫群落动态变化规律。     

甘南高寒草甸微地形上植物叶片特征与环境因子的冗余分析

了解植物叶片性状的生态学含义,对于阐明不同自然环境下的群落构建途径,进一步揭示生态系统维持机制具有重要的理论意义。本研究通过测定甘南高寒草甸坡向梯度25科86种植物叶片稳定碳同位素、比叶面积、叶干物质量及叶片营养元素含量等叶片组成特征,分析不同坡向条件下植物叶片特征与环境因子之间的关系。结果表明,北坡-南坡梯度上,随着土壤含水量、土壤全磷、土壤有机碳、土壤速效氮、速效磷含量等养分的不同程度降低,土壤温度、光照度及pH值的增加,植物叶片相对含水量、叶片磷含量、比叶面积、叶片钾含量显著减少,而叶片干物质量、相对叶绿素含量及稳定碳同位素值显著升高。冗余分析结果表明,坡向梯度上土壤含水量、土壤全磷、有机碳及速效磷含量与植物叶片含水量、叶片磷含量、比叶面积及叶片钾含量显著正相关,与植物叶片稳定碳同位素值、叶片干物质量及相对叶绿素含量显著负相关。而土壤温度、光照度及pH值与植物叶片稳定碳同位素值、叶片干物质量及相对叶绿素含量显著正相关,与叶片含水量、叶片磷含量、比叶面积及叶片钾含量显著负相关。说明不同环境因子对植物叶片特征的贡献显著不同。其中土壤含水量、土壤全磷含量、土壤温度及pH值等是关键的限制因子。植物叶片性状特征对不同坡向条件下环境因子的这种响应模式反映了高寒草甸微地形生态系统的环境状况和稳定程度。     

荒漠草原马粪中粪金龟子组成及分解作用

2007年4-10月,采用野外和室内实验相结合的方法,研究了荒漠草原马粪中的粪金龟子群落组成和对马粪分解的影响.共捕获粪金龟子13528头,隶属于3科4属26种,优势种为符号蜉金龟(Aphodius comma),占总捕获量的88.5%,不同季节粪金龟子群落组成明显不同;在鲜马粪中活动的粪金龟子以粪居型蜉金龟为主,在鲜马粪堆置3d时种数和个体数达到最高,6d后全部离开;马粪经过136 d分解,残留率为52.5%,残留粪样中氮和磷释放较慢,钾释放较快;结合室内分解实验的结果,认为粪金龟子主要通过在马粪中活动对其分解产生影响,并与风蚀作用成为荒漠草原马粪块破碎的重要动因,主要发生在春季和秋季.     

Territorial ants depress plant growth through cascading non‐trophic effects in an alpine meadow

Understanding non‐trophic interactions is critical to mechanistically linking community structure and ecosystem functioning. Despite the widespread occurrence of territoriality across animal taxa and ecosystems, the cascading ecological consequences of non‐trophic interactions between territorial animals and intruders have been poorly studied. We experimentally investigated the non‐trophic interaction between territorial ants and members of a dung decomposer community (i.e. predatory arthropods, maggots and coprophagous beetles) in an alpine meadow. We further examined how this non‐trophic interaction cascaded to influence ecosystem properties including dung removal rate, soil nutrient status and aboveground plant biomass surrounding dung pats. Results indicated that territorial interference of ants on key decomposers cascaded to affect plant growth. Specifically, ants significantly decreased the abundance of coprophagous beetles at the time of their peak‐abundance and hence decreased dung removal rates and soil nitrogen concentrations, ultimately decreasing aboveground plant biomass. The strength of this non‐trophic cascading effect was comparable to those reported in studies addressing trophic cascades triggered by predator–prey interactions. Our findings suggest that the non‐trophic interactions and associated cascading effects stemming from territorial behavior should be incorporated into ecological network modeling and research addressing biodiversity–ecosystem functioning relationships.     

Experimental mixtures of dung fauna affect dung decomposition through complex effects of species interactions

Dung fauna plays an important role in dung decomposition, a key ecosystem process in nutrient cycling in grazed grasslands. The diversity of a three‐species community (dung beetles, dung flies and epigeic earthworms) was systematically manipulated to produce different relative abundance distributions (evenness levels) and the resulting communities were introduced to standardised dung pats in laboratory experiments. Dung decomposition was modelled using an analysis that disentangled species identity effects and the interactions among species that contribute to the diversity effect. This revealed that the net diversity effect was composed of positive (fly–earthworm), negative (beetle–earthworm) and neutral (fly–beetle) effects of species interaction. These pairwise interactions resulted in complex, but systematically varying and predictable effects on dung decomposition as the relative abundances of species changed. Decomposition was consistently greater in communities with higher decomposer biomass. The utility of the adopted analytical approach was emphasised by comparison with an ANOVA that found that dung decomposition did not differ among evenness levels. Thus, the averaging of decomposition across different community structures within evenness levels masked the different effects of species interactions. These results highlight methodological insights into the quantification of diversity–function relationships.     

Environmental consequences of deltamethrin residues in cattle feces in an African agricultural landscape

Pyrethroid insecticides are widely used to control ectoparasites of livestock, particularly ticks and biting flies. Their use in African livestock systems is increasing, driven by the need to increase productivity and local food security. However, insecticide residues present in the dung after treatment are toxic to dung‐inhabiting insects. In a semiarid agricultural habitat in Botswana, dung beetle adult mortality, brood ball production, and larval survival were compared between untreated cattle dung and cattle dung spiked with deltamethrin, to give concentrations of 0.01, 0.1, 0.5, or 1 ppm. Cattle dung‐baited pitfall traps were used to measure repellent effects of deltamethrin in dung on Scarabaeidae. Dung decomposition rate was also examined. There was significantly increased mortality of adult dung beetles colonizing pats that contained deltamethrin compared to insecticide‐free pats. Brood ball production was significantly reduced at concentrations of 1 ppm; larval survival was significantly reduced in dung containing 0.1 ppm deltamethrin and above. There was no difference in the number of Scarabaeidae attracted to dung containing any of the deltamethrin concentrations. Dung decomposition was significantly reduced even at the lowest concentration (0.01 ppm) compared to insecticide‐free dung. The widespread use of deltamethrin in African agricultural ecosystems is a significant cause for concern; sustained use is likely to damage dung beetle populations and their provision of environmentally and economically important ecosystem services. Contaminated dung buried by paracoprid (tunneling) beetles may retain insecticidal effects, with impacts on developing larvae below ground. Lethal and sublethal effects on entire dung beetle (Scarabaeidae) communities could impair ecosystem function in agricultural landscapes.     

半干旱草原大中型土壤动物在畜粪分解中的作用

土壤动物是陆地生态系统的重要组分, 在有机质分解过程中具有重要作用。目前有关土壤动物在生态系统分解中的作用研究主要聚焦于植物凋落物的分解, 而对动物粪便分解的研究稀少。本研究在内蒙古典型草原设置了马粪和牛粪分解原位实验, 使用不同孔径的金属隔离网排除不同体型大小的土壤动物, 通过测定大中型土壤动物对畜粪分解过程中质量损失、碳氮含量和微生物呼吸以及土壤养分动态变化的影响, 解析其在分解中的作用。设置5个处理, 即CK, 仅土壤, 无粪; T0, 粪添加+0.425 mm隔离网(排除了粪居型和掘洞型粪金龟和中型土壤动物); T1, 粪添加+1 mm隔离网(排除了粪居型和掘洞型粪金龟); T2, 粪添加+2 mm隔离网(排除了掘洞型粪金龟); T3, 仅粪添加(不排除土壤动物)。结果表明: (1)在畜粪分解60天内, 土壤动物对畜粪的干质量损失没有显著的促进作用(P > 0.05); 相反, 在畜粪分解360天, 不隔离土壤动物处理(T3)显著地提高了牛粪干质量损失(P < 0.05), 而降低了马粪干质量损失(P < 0.05)。(2)在畜粪分解的60天内, 畜粪中碳和氮含量下降速度在有土壤动物存在的情况下(T3)快于隔离土壤动物(T0和T1)。(3)两种畜粪添加增加了土壤微生物的呼吸, 且这种增加趋势在实验的第15天和第30天在土壤动物存在时(T3)最明显。(4)与对照(CK)相比, 马粪添加处理提高了土壤速效氮、有机碳的含量和土壤含水量, 且这种增加趋势在排除掘洞型粪金龟(T2)和不排除土壤动物(T3)条件下表现更显著(P < 0.05), 而牛粪添加处理没有明显改变这些指标(P > 0.05)。研究表明, 分解初期粪金龟的取食和活动会改变畜粪的理化性质, 进而影响分解后期土壤生物在畜粪分解中的作用。     

Effects of yak dung patch dropped in cold season on soil and pasture on the Qinghai-Tibetan Plateau

To clarify how dung patches from grazing yaks affect soil and pasture in the alpine meadow of Qinghai-Tibetan Plateau, yak dung was collected, mixed and redistributed in a cold grazing season. The soil physical and chemical properties and forage growth were then monitored under the yak dung patch, and 10 cm and 50 cm from the edge of yak dung patches. The result has shown that yak dung significantly improved soil moisture, total organic matter, and soil available N and P under or close to the dung patches. The forage production at 10 cm from the dung patch (303 g/m²) was significantly higher than that at 50 cm from the dung patch (control) (284 g/m²) in the second year, while the production was similar to the control in the first and the third year. The process of yak dung decomposition was slow and yak dung remains were observed 3 years after the drop. The dung patches also formed a strong ‘shell’, very difficult for plant underneath to penetrate and grow. Therefore, almost all plants under yak dung patches died, leading to decline in forage yield in the first, second, and the third year. In practice in the Qinghai-Tibetan Plateau regions, yak dung is often collected as fuel by the local farmers. Removing yak dung from alpine meadow may on one hand lead to losses in soil nutrients, but on the other hand reduces some of the negative effects, e.g. the reduction of forage yield under yak dung patches.     

Effects of microclimate,litter type,and mesh size on leaf litter decomposition along an elevation gradient in the Wuyi Mountains,China

Litter decomposition is an important ecosystem process regulated by both biotic factors (e.g., decomposers and litter types) and abiotic factors (e.g., temperature and moisture). This study examined the regulatory effects of soil fauna and microclimate on decomposition of two substrates (Castanopsis carlesii and Pinus taiwanensis) along an elevation gradient in four ecosystems of zonal vegetation types in southeastern China: evergreen broadleaf forest (EVB), coniferous forest (COF), dwarf forest (DWF), and alpine meadow (ALM). Our objective was to identify the mechanisms by which microclimate, substrate, and fauna control litter decomposition, especially where variations in ecosystem structure and environment are markedly shown across an elevation gradient. The hypotheses were as follows: (1) litter decomposition within the same litter type would decrease across the elevation gradient, (2) litter decomposition would be lower in poorer nutrient quality substrate across the four sites, and (3) litter dynamics, influenced by strong interactions among ecosystem type, litter type, and decomposers, would vary by elevation gradient due to microclimate effects (i.e., temperature and moisture). The decomposition rates of C. carlesii were significantly higher than those of P. taiwanensis at EVB, COF, and DWF sites; however, they were not significantly different at the ALM site. Low elevation forests possessed a microclimate (warm and humid) that favors decomposer activities and also appeared to possess a decomposer community adapted to consuming large amounts of leaf litter, as indicated by the rapid leaf litter loss. Litter decomposition in micro-mesh bags proceeded more slowly compared to litter in meso-mesh and macro-mesh litterbags across the elevation gradient, indicating that restricting some detritivore access to litter reduced litter mass loss. We suggest that microclimate and faunal contributions to plant litter decomposition differ markedly across the ecosystems in the Wuyi Mountains.     

Evidence that sex‐specific signals may support mate finding and limit aggregation in the dung beetle Aphodius fossor

1. In temperate climates, dung is often colonised by several species of endocoprid (dwelling) dung beetles which use pats for feeding, shelter, and reproduction. 2. Endocoprid beetles aggregate even when offered patches (dung pats) of consistent age, size, and origin, suggesting that beetles themselves might influence the attractiveness of patches to members of their own species. Both pheromones, and physical changes to the structure of dung pats caused by colonising beetles have been suggested as mechanisms facilitating intraspecific aggregation, but neither of these hypotheses have been empirically tested. 3. Using a common European dung beetle (Aphodius fossor L.), we conducted a simple choice experiment designed to test whether (i) earlier colonisation by conspecifics could alter dung attractiveness and (ii) whether attraction was influenced by sex‐specific signals. 4. We found that female beetles are repelled by dung colonised by conspecific females and are attracted to dung colonised by conspecific males. Male beetles show no evidence of attraction or repellence for dung colonised by either sex. Neither in females nor males was uncolonised dung found to be significantly more or less attractive than predicted by non‐preference. 5. Our results suggest that for A. fossor male‐produced signals may support mate finding in patchy environments, and that female‐produced signals may serve to discourage subsequent colonisation by additional females.     

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。