The Mechanism of Replacement of Red Squirrels by Grey Squirrels: A Test of the Interference Competition Hypothesis

Introduced American grey squirrels have replaced native red squirrels in most of the range currently occupied in Britain and northern Italy. The mechanisms of the replacement are not yet fully understood. We restated the commonly cited Interference Competition Hypothesis (ICH) that grey squirrels interfere with the behaviour of red squirrels in three possible ways: 1. by direct aggressive interactions; 2. by interrupting red squirrel mating-chases; or 3. by forcing red squirrels to actively avoid areas intensively used by grey squirrels. We compared the activity pattern, behaviour and reproductive performance of red squirrels in two study areas in northern Italy, one with only red squirrels (control area C1), the other with both species (experimental area E1). The following predictions were tested: 1. the total time spent in both intraspecific and interspecific interactions by red squirrels increases in the experimental area; 2. most interspecific interactions are aggressive, with grey squirrels being the dominant species; 3. the proportion of breeding female red squirrels that are unsuccessful at weaning offspring increases in area E1; 4. grey squirrels take part and interfere with red squirrel mating-chases, and thereby decrease the reproductive output of red squirrel females; 5. the activity pattern of red squirrels in the mixed-species area is shifted with respect to that in the control area to the hours of the day during which grey squirrels show little activity; and 6. red squirrels will shift their home range (or at least their core-area) when grey squirrel densities increase to avoid interspecific core-area overlap. Our results supported only the first prediction of the ICH: they failed to support all the other predictions. Moreover, the increase in the percentage of active time red squirrels spent interacting with other squirrels in the experimental study area was very small (only 1–2 min/day). Red squirrels did not avoid the woodland patches most intensively used by grey squirrels and the interspecific core-area overlap was similar to red squirrel intraspecific core-area overlap. This suggested that red squirrels avoided spatial overlap with grey squirrels in a similar manner as with conspecifics and that an increase in grey squirrel numbers will augment the intensity of resource competition. We therefore conclude that our results do not lend support to the Interference Competition Hypothesis and that interference competition by grey squirrels cannot explain the large-scale replacement of red by grey squirrels that has occurred in Britain and in Piedmont.     

Responses of Soil,Heterotrophic, and Autotrophic Respiration to Experimental Open-Field Soil Warming in a Cool-Temperate Deciduous Forest

How global warming will affect soil respiration (R _S) and its source components is poorly understood despite its importance for accurate prediction of global carbon (C) cycles. We examined the responses of R _S, heterotrophic respiration (R _H), autotrophic respiration (R _A), nitrogen (N) availability, and fine-root biomass to increased temperature in an open-field soil warming experiment. The experiment was conducted in a cool-temperate deciduous forest ecosystem in northern Japan. As this forest is subjected to strong temporal variation in temperature, on scales ranging from daily to seasonal, we also investigated the temporal variation in the effects of soil warming on R _S, R _H, and R _A. Soil temperature was continuously elevated by about 4.0°C from 2007 to 2014 using heating wires buried in the soil, and we measured soil respiratory processes in all four seasons from 2012 to 2014. Soil warming increased annual R _S by 32–45%, but the magnitude of the increase was different between the components: R _H and R _A were also stimulated, and increased by 39–41 and 17–18%, respectively. Soil N availability during the growing season and fine-root biomass were not remarkably affected by the warming treatment. We found that the warming effects varied seasonally. R _H increased significantly throughout the year, but the warming effect showed remarkable seasonal differences, with the maximum stimulation in the spring. This suggests that warmer spring temperature will produce a greater increase in CO₂ release than warmer summer temperatures. In addition, we found that soil warming reduced the temperature sensitivity (Q ₁₀) of R _S. Although the Q ₁₀ of both R _H and R _A tended to be reduced, the decrease in the Q ₁₀ of R _S was caused mainly by a decrease in the response of R _A to warming. These long-term results indicate that a balance between the rapid and large response of soil microbes and the acclimation of plant roots both play important roles in determining the response of R _S to soil warming, and must be carefully considered to predict the responses of soil C dynamics under future temperature conditions.     

Wind Conditions and Pollen Deposition in a Mixed Deciduous Forest

Pollen deposition in a mixed deciduous forest in South Jutland, Denmark, was studied by means of pollen analyses (Andersen, 1970) and pollen collectors. In this connection it was important to know the wind conditions outside and inside the forest. Wind velocities and wind directions in the flowering seasons were measured at 2 stations in a 3-year period. High wind velocities prevail above the forest in spring and summer. At such wind velocities the difference in loss of large and small pollen grains by filtration in the tree tops is reduced. The winds inside the forest tend to turn into the direction of easiest flow. The velocities are about 20% of the outside wind before and 12–15% after the leafing. Single pollen grains released from the trees will be carried wide distances before deposition in the spring, and it is suggested that the tree pollen falls to the ground rather in aggregates or included in rain-drops.     

落叶阔叶林内的光合作用和气孔传导率特征(英文)

本文根据Wang和BMdocchi(1989)最近提出的冠层辐射模型,进一步给出了一个模拟冠层光合作用速率和气孔传导率的模式.模式将冠层中每一层的叶面积分为向光叶、半影叶、和全遮荫叶三种,并分别计算其光合作用速率和气孔传导率。计算得到的光合速率廓线表明,在落叶阔叶林内,冠层下部的叶片常处于光照不足状态;半影效应使得透过林冠达于底部的辐射量增大,这对于林下植物的光合作用是有利的。 模式计算值与实测值之间的微弱差别应归因于纯辐射模型无法考虑湍流输送机制造成的CO_2传输和冠层底部耐荫性叶对于低光照的适应能力。     

阔叶红松林树种间竞争关系及其营林意义

竞争是森林生态系统中的普遍现象 ,其结果是一个有机体阻碍另一个有机体的正常生长和发育[9] 。在生态学上 ,多年来对树种间竞争的研究一直局限于实验的方法 ,而在竞争强度上缺乏数量指标[2 ] 。 2 0世纪 60年代以来 ,很多学者为了更准确地预测林木生长 ,相继提出了许多描述林木间竞争强度的数量指标 ,即竞争指数系统 ,从而形成了用单木生长模型来预测林木生长的方法[2 ,3 ] 。特别是Ｈｅｇｙｉ提出的竞争指数模型对于定量描述树种间的竞争强度有着十分重要的意义。在长白山地区 ,从海拔 5 0 0～ 110 0ｍ分布有温带地区的地带性顶极植被阔叶…     

Flowering Phenology of Understory Herbaceous Species in a Cool Temperate Deciduous Forest in Ogawa Forest Reserve, Central Japan

Received 12 October 1999/ Accepted in revised form 26 September 2000     

Developmental Patterns of Tree Dimensions in a Neotropical Deciduous Forest1

For 26 tree species in very dry tropical forest in Mexico, the developmental trends of relationships among trunk diameter, tree height, and crown diameter were inferred from a one‐time measurement of dispersed individuals across the size range from saplings to large, mature trees. On hillside sites in this high diversity forest, maximum dimensions were usually <10‐m height, 4‐m crown diameter, and 0.3‐m trunk diameter. The relationship of height to trunk diameter was characterized by an asymptotic, three‐parameter model. Crown diameter was a linear function of trunk diameter. The parameter values for both models varied widely among the species. In general, the dispersion among species of the height–crown diameter relationship increased linearly with trunk diameter (up to 0.2 m). Arborescent cacti were distant from other species at all sizes, although they were well modeled using the same equations. Empirical and theoretical features and limitations of the present and previous models, including mechanical buckling and water‐stress theories, are considered.     

喀斯特常绿落叶阔叶混交林植被的空间异质性

基于广西环江木论国家级自然保护区喀斯特典型峰丛洼地常绿落叶阔叶混交林2 hm2动态监测样地,选择4个多样性和5个群落结构属性变量,运用地统计学和分形几何学理论方法,分析植被的空间异质性、分形特征和分布格局,以探讨其维持机制。结果表明:(1)样地树木种类和除平均高度外的4个结构属性变量均值适中,变异系数较高(48.37%～71.01%),植物多样性丰富且稳定性强,Shannon指数、Simpson指数和均匀度指数变异系数仅在5.49%～22.64%之间。(2)除均匀度的Moran’s I系数接近0且无规律外,其他8个属性变量均有不同程度的空间自相关性,分别用球状、指数和高斯模型拟合的决定系数(R2)高达0.900～0.982,C/(C0+C)值和分维数D值分别在0.582～0.827和1.738～1.871之间,具有中等以上的空间依赖性。(3)密度、平均冠幅和高度的自相关范围和变程小于其他指标,其分布和形成过程决定了整个森林植被的空间格局。(4)森林植被的Kriging等值线图充分表征了人为干扰、地形、土壤质量的综合差异。(5)自相关、半方差模型的变程和Kriging等值线图综合分析表明,喀斯特峰丛洼地常绿落叶阔叶混交林空间异质性研究的采样间隔10 m左右较适宜,但采样范围应大于10hm2,这对确定该区域动态监测样地的面积具有一定的指导意义。     

Above- and Belowground Net Primary Production in a Temperate Mixed Deciduous Forest

Our current ability to detect and predict changes in forest ecosystem productivity is constrained by several limitations. These include a poor understanding of belowground productivity, the short duration of most analyses, and a need for greater examination of species- or community-specific variability in productivity studies. We quantified aboveground net primary productivity (ANPP) over 3 years (1999–2001), and both belowground NPP (BNPP) and total NPP over 2 years (2000–2001) in both mesic and xeric site community types of the mixed mesophytic forest of southeastern Kentucky to examine landscape variability in productivity and its relation with soil resource [water and nitrogen (N)] availability. Across sites, ANPP was significantly correlated with N availability (R² = 0.58, P = 0.028) while BNPP was best predicted by soil moisture content (R² = 0.72, P = 0.008). Because of these offsetting patterns, total NPP was unrelated to either soil resource. Interannual variability in growing season precipitation during the study resulted in a 50% decline in mesic site litter production, possibly due to a lag effect following a moderate drought year in 1999. As a result, ANPP in mesic sites declined 27% in 2000 compared to 1999, while xeric sites had no aboveground production differences related to precipitation variability. If global climate change produces more frequent occurrences of drought, then the response of mesic sites to prolonged moisture deficiency and the consequences of shifting carbon (C) allocation on C storage will become important questions.     

Disturbance and Seasonal Dynamics of Mycorrhizae in a Tropical Deciduous Forest in Mexico1

Mycorrhizal fungi were sampled in a deciduous tropical forest on the Pacific coast of Mexico during different seasons and in natural treefall gaps and pastures. All 12 plant species sampled in the forest were arbuscular mycorrhizal. The percent root infection and spore production were closely related to the phenology of the plants. Most tree species and all herbaceous species had the highest infection in the summer rainy season, but two species, Opuntia excelsa and Jacquinia pungens, had highest infection in the dry season. Unusually high rainfall during the dry season was associated with increased infection but not increased spore production. Spore density was low for all species at all sample times, except at the beginning of the July 1993 rainy season in, when we observed up to 28 spores/g soil. The percent cover of shrubs or herbs did not increase in gaps after two years, and we observed no colonizing seedlings. No plant species with cover higher than 2.7 percent occurred exclusively in gaps or forest. The percent mycorrhizal infection did not differ significantly between gaps and forest. Spore counts were as high in the gaps as in the forest in two of the three gaps but lower in the third gap. The lack of significant response of plants in these gaps after two years differed from the rapid response in tropical rainforests. It is likely related to the small size of the gaps and to light infiltration to the forest floor. Pastures were dominated by two species of exotic grasses and one species of mycorrhizal fungus, whereas forests had 15 fungal species. The slow regrowth of vegetation in gaps was not limited by mycorrhizal fungi, since they were still abundant after the treefalls, but recovery in pastures could be affected by low fungal diversity and dominance of grasses.     

大别山北坡落叶阔叶林的物种多样性

应用Simpson生态优势度指数（C）,Shannon—Wiener多样性指数（H）和均匀度（E）等指标,对落叶阔叶林的4个组合类型的物种多样性进行了分析。结果表明;乔木层树种的多样性指数H变化在1.4709-3.8875之间,以T_3（3.8875）最高,依次为T_4、T_2、T_1（1.4709）最低;均匀度E为T_3＞T_4＞T_1＞T_2,而生态优势度C与H的变化相反。表现出物种多样性不只受到海拔高度、生境条件的影响,人为活动、群落的稳定性等因素也有重要作用。相反,灌木层和草本层的物种多样性受人为活动的影响相对较小,表现出常规的变化,即随海拔升高,H和E值降低,C值则升高。格局检验的结果表明：栓皮栎种群为集群分布,短柄枹群呈随机分布。而化香种则呈现在化香林中的集群分布,在短柄枹林中又为随机分布的特点。     

An Experimental Study of Competition Between Seed-eating Desert Rodents and Ants

Reciprocal increases in rodent and ant densities on 0.1 ha plotsfrom which the other taxon had been excluded demonstrate thatthese distantly related desert granivores compete for seeds.Relative to unmanipulated control plots, numbers of ant coloniesincreased 71% on plots where rodents were excluded; rodentsincreased 20% in numbers of individuals and 29% in biomass inthe absence of ants. Comparisons of seed levels in the soiland of annual plant densities on experimental and control plotsprovide evidence that the rodent and ant populations are limitedby and compete for food. Greater numbers of seeds and annualsoccurred on plots where rodents and ants had been excluded thanon plots where both taxa were present. Particular species ofannuals were reduced in density by foraging of rodents. Antsincreased species diversity by differentially harvesting seedsof the most common species. Results of these and other recentstudies suggest that competition among distantly related organismsplays a major role in the organization of ecological communities.     

次生落叶阔叶林鹭类营巢地生境特征

2006年4月至6月对河南省确山县石磙河乡小王沟村的鹭类营巢地的生境特征进行了研究.在所设置的4条样线上共测定55个样方,其中利用样方32个,测定其15个生态因子;对照样方23个,测定其9个生态因子.该营巢地为池鹭Ardeola bacchus、白鹭Egretta garzetta、牛背鹭Bubucus ibis的混群营巢地,以池鹭占绝对优势,营巢以本地的优势树种栓皮栎为主.鹭巢的乔木冠层空间位置,垂直空间上主要选择乔冠上位和中位,水平空间上主要选择乔冠内部和中部.分析表明,小王沟鹭类营巢地的生境特征是:①乔木形态因子:乔木密度较低,乔木高大;②林相因子:灌木盖度较低的纯栓皮栎林分;③地理因子:阳坡和半阳坡的下坡位.     

Habitat Characteristics of Forest Fragments Determine Specialisation of Plant-Frugivore Networks in a Mosaic Forest Landscape

Plant-frugivore networks play a key role in the regeneration of sub-tropical forest ecosystems. However, information about the impact of habitat characteristics on plant-frugivore networks in fragmented forests is scarce. We investigated the importance of fruit abundance, fruiting plant species richness and canopy cover within habitat fragments for the structure and robustness of plant-frugivore networks in a mosaic forest landscape of South Africa. In total, 53 avian species were involved in fruit removal of 31 fleshy-fruiting plant species. Species specialisation was always higher for plants than for frugivores. Both species and network-level specialisation increased with increasing fruit abundance and decreased with increasing fruiting plant species richness and canopy cover within fragments. Interaction diversity was unaffected by fruit abundance and canopy cover, but increased slightly with increasing fruiting plant species richness. These findings suggest that especially the availability of resources is an important determinant of the structure of plant-frugivore networks in a fragmented forest landscape.     

Tree Competition and Species Coexistence in a Sub-boreal Forest, Northern Japan

The growth and mortality patterns and the mode of competitionof six tree species forming a sub-boreal climax forest in Hokkaido,northern Japan, were investigated based on the diffusion modelat the level of the individual tree 2 m height in a 2·3-hastudy site. Picea jezoensis, Picea glehnii, Betula ermanii andAbies sachalinensis were dominant species, occupying approx.94% of the total basal area. Sorbus commixta and Acer ukurunduensewere subordinate species occupying approx. 6% of the total basalarea. A model for individual growth was developed, consideringboth intra- and inter-specific competition and the degree ofcompetitive asymmetry. Asymmetry was found in intraspecificcompetition of Sorbus commixta and Acer ukurunduense. Piceajezoensis, Betula ermanii and Abies sachalinensis showed symmetricintraspecific competition. There was little interspecific competitionamongst Picea jezoensis, Picea glehnii and Betula ermanii. Abiessachalinensis competed symmetrically with Picea jezoensis (onlyvery weakly, P < 0·1) and Betula ermanii (P < 0·01).Picea glehnii gave no indication of inter- or intra-specificcompetition. The growth of the four dominant species was neveraffected by the two subordinate species; the growth of the twosubordinate species was governed by the abundances of the fourdominant species, the sum of which almost amounted to standcrowdedness (i.e. symmetric competitive effect and one-sidedcompetitive direction). On the scale of 2·3 ha of thesub-boreal forest, symmetric competition prevailed over one-sidedor asymmetric competition although statistical evidence forany competitive effects was rather weak. This was probably dueto the relatively low tree density and stand crowdedness ofthis climax forest. Little competition between the dominantspecies suggested by relatively low proportions of r²-valuesattributable to competitive effects indicates weak organizationamongst the component species (i.e. species were more or lessindependent of each other) at the level of the individual tree 2 m height on the 2·3-ha scale.Copyright 1995, 1999Academic Press Climax forest, diffusion model, individual growth, one-sided competition, size structure, symmetric competition     

八大公山中亚热带山地常绿落叶阔叶混交林物种组成与结构

山地常绿落叶阔叶混交林在我国主要分布在中亚热带1000～2000 m中山地带。八大公山位于武陵山系北端,中亚热带北缘,具有保护较好的典型山地常绿落叶阔叶混交林。为了研究常绿落叶阔叶混交林动态和川东-鄂西植物多样性形成及维持机制,按照CTFS（Center for Tropical Forest Science）样地建设标准,中国科学院武汉植物园于2010-2011年在湖南八大公山（Badagongshan,BDGS）国家级自然保护区建立了一个25 hm2（500 m×500 m）中亚热带山地常绿落叶阔叶混交林动态监测样地（Forest Dynamic Plot）。本研究以样地内所有胸径（DBH）≥1 cm的木本植物（不含竹藤）为研究对象,分析该样地区系成分、群落组成、垂直结构、径级结构和空间分布。结果表明：八大公山样地属于典型的山地常绿落叶阔叶混交林,植物以泛热带分布科（24.50%）和北温带分布属（24.56%）占优势,包括9种珍稀濒危植物。样地内木本植物合计53科、114属、238种（含种下分类单位）,186556株存活个体。落叶树144种,常绿树94种。壳斗科（Fagaceae）、杜鹃花科（Ericaceae）、樟科（Lauraceae）和山茶科（Theaceae）占据优势;个体数超过1000的有38个物种,以常绿树种（63.16%）为主;稀有种（〈25株）103个（占样地物种总数43.28%）。群落垂直结构可分为乔木层（优势树种多脉青冈Cyclobalanopsis multinervis和亮叶水青冈Fagus lucida）、亚乔木层（优势种长蕊杜鹃Rhododendron stamineum和黄丹木姜子Litsea elongata）和灌木层（优势种短柱柃Eurya brevistyla和薄叶山矾Symplocos anomala）。个体数超过1000的树种和稀有种主要来自灌木层。由于生长型限制,样地内树种平均胸径较小（5.41 cm）,DBH〈5 cm的个体占优势（68.40%）。主要优势树种的径级结构呈现倒J型。     

Unmanned Aerial Survey of Fallen Trees in a Deciduous Broadleaved Forest in Eastern Japan

Since fallen trees are a key factor in biodiversity and biogeochemical cycling, information about their spatial distribution is of use in determining species distribution and nutrient and carbon cycling in forest ecosystems. Ground-based surveys are both time consuming and labour intensive. Remote-sensing technology can reduce these costs. Here, we used high-spatial-resolution aerial photographs (0.5–1.0 cm per pixel) taken from an unmanned aerial vehicle (UAV) to survey fallen trees in a deciduous broadleaved forest in eastern Japan. In nine sub-plots we found a total of 44 fallen trees by ground survey. From the aerial photographs, we identified 80% to 90% of fallen trees that were >30 cm in diameter or >10 m in length, but missed many that were narrower or shorter. This failure may be due to the similarity of fallen trees to trunks and branches of standing trees or masking by standing trees. Views of the same point from different angles may improve the detection rate because they would provide more opportunity to detect fallen trees hidden by standing trees. Our results suggest that UAV surveys will make it possible to monitor the spatial and temporal variations in forest structure and function at lower cost.