共查询到20条相似文献,搜索用时 15 毫秒
1.
Rajaniemi TK 《Oecologia》2007,153(1):145-152
The responses of plant roots to nutrient patches in soil may be an important component of competitive ability. In particular,
the scale, precision, and rate of foraging for patchy soil resources may influence competitive ability in heterogeneous soils.
In a target–neighbor experiment in the field, per-individual and per-gram competitive effects were measured for six old-field
species with known root foraging scale, precision, and rate. The presence and number of nutrient patches were also manipulated
in a full factorial design. Number and presence of patches did not influence the outcome of competition. Competitive ability
was not related to total plant size, growth rate, or root:shoot allocation, or to root foraging precision. Per-individual
competitive effects were marginally correlated with root foraging scale (biomass of roots) and root foraging rate (time required
to reach a patch). Therefore, competitive ability was more closely related to ability to quickly fill a soil volume with roots
than to ability to preempt resource-rich patches. 相似文献
2.
Shading may both lessen the demand for soil nutrients and also the energy supply for nutrient acquisition. Since root foraging
for nutrients in patchy environments can be energy-costly, especially for an immobile nutrient such as phosphate (P), the
effects of shading may be most expected in heterogeneous soils. Plant acquisition of nitrate (N) and phosphate from soils
with patchy and uniform nutrient distributions was determined in a field study under open sunlight and with shading for two
common perennial Great Basin shrub steppe species, Agropyron desertorum and Artemisia tridentata. Partial shading in a pattern which can occur in shrub steppe vegetation significantly decreased plant N and P acquisition
from soils both in the patchy and the uniform nutrient treatments. Artemisia was more affected by the shading than was Agropyron. Exploitation of the rather immobile P ion by both species was reduced to a much greater degree by the shading in the patchy
distribution treatment than in the uniform nutrient treatment. As expected, plant acquisition of the more mobile N varied
little with nutrient distribution treatment for both species and the depression of N acquisition by shading was the same in
both nutrient distributions. The effects of shading appeared to have had its primary influence on different components of
root foraging in the two species, especially in the nutrient-rich patches. For Agropyron shading primarily affected root proliferation, as indicated by reduced root density in patches. For Artemisia, shading most influenced root physiological uptake capacity and this was most pronounced in the nutrient-rich patches. While
aboveground competition for light may generally reduce nutrient acquisition, the effects appear to be most pronounced if root
systems of these steppe species are foraging for nutrients such as P in spatially heterogeneous soils.
Received: 29 February 1996 / Accepted: 16 July 1996 相似文献
3.
The root foraging strategy of a plant species can be characterized by measuring foraging scale, precision, and rate. Trade-offs among these traits have been predicted to contribute to coexistence of competitors. We tested for trade-offs among root foraging scale (total root mass and length of structural roots), precision (ln-ratio of root lengths in resource-rich and resource-poor patches), and rate (days required for roots to reach a resource-rich patch, or growth rate of roots within a resource-rich patch) in eight co-occurring species. We found that root foraging scale and precision were positively correlated, as were foraging scale and the rate of reaching patches. High relative growth rate of a species did not contribute to greater scale, precision, or rate of root foraging. Introduced species had greater foraging scale, precision, and rate than native species. The positive correlations between foraging scale and foraging precision and rate may give larger species a disproportionate advantage in competition for patchy soil resources, leading to size asymmetric competition below ground. 相似文献
4.
Justine D. Karst Pamela R. Belter Jonathan A. Bennett James F. Cahill Jr. 《Oecologia》2012,170(4):925-933
Context-dependent foraging behaviour is acknowledged and well documented for a diversity of animals and conditions. The contextual determinants of plant foraging behaviour, however, are poorly understood. Plant roots encounter patchy distributions of nutrients and soil fungi. Both of these features affect root form and function, but how they interact to affect foraging behaviour is unknown. We extend the use of the marginal value theorem to make predictions about the foraging behaviour of roots, and test our predictions by manipulating soil resource distribution and inoculation by soil fungi. We measured plant movement as both distance roots travelled and time taken to grow through nutrient patches of varied quality. To do this, we grew Achillea millefolium in the centers of modified pots with a high-nutrient patch and a low-nutrient patch on either side of the plant (heterogeneous) or patch-free conditions (homogeneous). Fungal inoculation, but not resource distribution, altered the time it took roots to reach nutrient patches. When in nutrient patches, root growth decreased relative to homogeneous soils. However, this change in foraging behaviour was not contingent upon patch quality or fungal inoculation. Root system breadth was larger in homogeneous than in heterogeneous soils, until measures were influenced by pot edges. Overall, we find that root foraging behaviour is modified by resource heterogeneity but not fungal inoculation. We find support for predictions of the marginal value theorem that organisms travel faster through low-quality than through high-quality environments, with the caveat that roots respond to nutrient patches per se rather than the quality of those patches. 相似文献
5.
Although the behaviour of animals facing the conflicting demands of increasing foraging success and decreasing predation risk has been studied in many taxa, the response of pollinators to variations in both factors has only been studied in isolation. We compared visit rates of two pollinator species, hoverflies and honeybees, to 40 Chrysanthemum segetum patches in which we manipulated predation risk (patches with and without crab spiders) and nectar availability (rich and poor patches) using a full factorial design. Pollinators responded differently to the tradeoff between maximising intake rate and minimising predation risk: honeybees preferred rich safe patches and avoided poor risky patches while the number of hoverflies was highest at poor risky patches. Because honeybees were more susceptible to predation than hoverflies, our results suggest that, in the presence of competition for resources, less susceptible pollinators concentrate their foraging effort on riskier resources, where competition is less severe. Crab spiders had a negative effect on the rate at which inflorescences were visited by honeybees. This effect was mediated through changes in the foraging strategy of honeybees, and could, in principle, be reversed by increasing nectar productivity of inflorescences. Our study shows that both pollinator species responded simultaneously and differently to variations in food reward and predation risk, and highlights the importance of studying the foraging strategies of pollinators in order to fully understand how plant–pollinator interactions are established. 相似文献
6.
为了研究邻株竞争对马尾松(Pinus massoniana)和木荷(Schima superba)觅取异质分布养分机理和行为的影响, 我们设计单植、双株纯栽和两株混植3种栽植方式, 构建了同质和异质养分环境开展盆栽实验。结果表明: 单植时, 马尾松和木荷苗木生长对斑块养分反应敏感, 与同质养分环境相比, 两树种在异质养分环境中具有苗高生长量大、干物质积累量高、根系在富养斑块中大量增生, 根系N、P含量和吸收效率高等特点。在异质养分环境中, 木荷与马尾松邻株竞争时的生长表现优于双株纯栽模式而与单植处理相近, 根系形态可塑性和生理可塑性在其觅取斑块养分中的作用显著增强; 与木荷邻株竞争时, 马尾松苗高生长也表现出较单植和双株纯栽模式一定的优势, 这与其根系的广布性、觅养精确性和反应敏感度变化较小及富养斑块中根系P素含量和吸收效率较高等有关。相反, 同种邻株竞争则使得异质养分环境中马尾松和木荷的根系广布性减小, 反应敏感度减弱, 富养斑块中根系N、P含量降低, 苗高生长量和干物质积累量减小。与马尾松相比, 同种邻株竞争对异质养分环境中木荷生长的负向影响更为强烈。建议在生产中采用混交造林的方式促进马尾松和木荷生长。若要营造人工纯林, 可通过适当降低初植密度或及时调控林分密度促进林木生长。 相似文献
7.
Small-scale spatial variability in phylogenetic community structure during early plant succession depends on soil properties 总被引:1,自引:0,他引:1
Werner Ulrich Marcin Piwczyński Markus Klemens Zaplata Susanne Winter Wolfgang Schaaf Anton Fischer 《Oecologia》2014,175(3):985-995
During early plant succession, the phylogenetic structure of a community changes in response to important environmental filters and emerging species interactions. We traced the development of temperate-zone plant communities during the first 7 years of primary succession on catchment soils to explore patterns of initial species assembly. We found pronounced small-scale differences in the phylogenetic composition of neighbouring plant assemblages and a large-scale trend towards phylogenetic evenness. This small-scale variability appears to be mediated by soil properties, particularly carbonate content. Therefore, abiotic environmental conditions might counteract or even supersede the effects of interspecific competition among closely related species, which are usually predicted to exhibit patterns of phylogenetic evenness. We conclude that theories on phylogenetic community composition need to incorporate effects of small-scale variability of environmental factors. 相似文献
8.
Plant phenotypic plasticity belowground: a phylogenetic perspective on root foraging trade-offs 总被引:2,自引:0,他引:2
Many plants proliferate roots in nutrient patches, presumably increasing nutrient uptake and plant fitness. Nutrient heterogeneity has been hypothesized to maintain community diversity because of a trade-off between the spatial extent over which plants forage (foraging scale) and their ability to proliferate roots precisely in nutrient patches (foraging precision). Empirical support for this hypothesis has been mixed, and some authors have suggested that interspecific differences in relative growth rate may be confounded with measurements of foraging precision. We collected previously published data from numerous studies of root foraging ability (foraging precision, scale, response to heterogeneity, and relative growth rate) and phylogenetic relationships for >100 plant species to test these hypotheses using comparative methods. Root foraging precision was phylogenetically and taxonomically conserved. Using a historical and phylogenetically independent contrast correlations, we found no evidence of a root foraging scale-precision trade-off, mixed support for a relative growth rate-precision relationship, and no support for the widespread assumption that foraging precision increases the benefit gained from growth in heterogeneous soil. Our understanding of the impacts of plant foraging precision and soil heterogeneity on plants and communities is less advanced than commonly believed, and we suggest several areas in which further research is needed. 相似文献
9.
土壤养分分布具有高度空间异质性, 植物的根系觅养行为是其对土壤养分异质性的一种适应。不同植物为了适应养分异质性会产生不同的根系觅养行为, 通过调整自身的根系觅养范围、觅养精度和觅养速度来更好地吸收利用土壤中的养分。外来植物与本地植物的竞争是决定其成功入侵的重要因素, 土壤养分等环境因素会影响它们之间的竞争关系。近年来, 外来入侵植物的觅养行为逐渐受到人们的关注, 关于入侵植物根系觅养行为的研究成果陆续出现: (1)总体来看, 外来入侵植物具有较强的根系觅养能力, 但根系觅养范围与觅养精度之间的权衡关系还不确定; (2)营养异质性会影响入侵植物与本地植物之间的竞争, 反过来, 二者之间的竞争也会影响根系觅养行为对营养异质性的响应; (3)丛枝菌根真菌(arbuscular mycorrhizal fungi, AMF)能够提高入侵植物的根系觅养能力, 外来植物入侵能够改变入侵植物对AMF的偏好性, 形成AMF对入侵的正反馈作用, 而本地植物与AMF的相互作用也会影响入侵植物的竞争力。未来还应加强营养异质环境下种间竞争和AMF共生对入侵植物根系觅养行为的影响机制研究, 以及全球变化背景下入侵植物根系觅养行为的变化与机制方面的研究, 可以更深入地认识外来植物的觅养行为在其成功入侵中的作用, 并为利用营养调控来防控入侵植物提供理论依据。 相似文献
10.
Philip S. Barton Saul A. Cunningham Ben C. T. Macdonald Sue McIntyre David B. Lindenmayer Adrian D. Manning 《PloS one》2013,8(1)
Carrion is an ephemeral and spatially patchy resource that supports a diverse subset of species linked to nutrient cycling and the decomposition process. A number of studies have separately documented changes in the diversity of plants, arthropods and vertebrates at individual carcasses, but there are few studies that have examined how functional traits of different groups of organisms underpin their responses to carrion patches. We used a carrion addition experiment to compare changes in composition and functional traits of insect and plant assemblages at carcasses compared with control sites. We found that significant changes in insect assemblage evenness and heterogeneity was associated with species’ dispersal traits, and that plant assemblage responses to subsequent soil nitrogen changes was most apparent among graminoids and exotic species. Beetles at carcasses were twice as large as their counterparts at control sites during the first week of carrion decomposition, and also had higher wing loadings. Plants with high specific leaf area responded faster to the carcass addition, and twice as many species recolonised the centre of carcasses in exotic-dominated grassland compared with carcasses in native-dominated grassland. These results provide an example of how traits of opportunist species enable them to exploit patchy and dynamic resources. This increases our understanding of how carcasses can drive biodiversity dynamics, and has implications for the way carrion might be managed in ecosystems, such as appropriate consideration of spatial and temporal continuity in carrion resources to promote heterogeneity in nutrient cycling and species diversity within landscapes. 相似文献
11.
Petr &#x;milauer Marie &#x;milauerov Milan Kotilínek Ji&#x;í Ko&#x;nar 《Molecular ecology》2020,29(8):1574-1587
To better understand the ecology of arbuscular mycorrhizal (AM) symbiosis, we need to measure functional traits of individual fungal virtual taxa under field conditions. The efficiency of AM fungi in locating nutrient‐rich patches in soil space is one of their central traits in this symbiotic relationship. We used plots of a long‐term field experiment in grassland with manipulated functional group composition of host plant community to establish ingrowth patches with substrate free of roots and fungi and with varying nutrient availability. Comparison of the original AM fungal community before patch creation with that present 9 weeks after patch establishment enabled us to estimate relative hyphal foraging speed for 41 fungal taxa, and a comparison of the fungal community in neighbouring patches differing in nutrient availability provided estimates of hyphal foraging precision for 22 taxa. Members of two dominant fungal families, Glomeraceae and Claroideoglomeraceae, differed in their foraging speed and precision. Glomeraceae taxa responded more slowly, but with a higher focus on enriched patches. We further demonstrated the usefulness of the obtained fungal functional traits by testing the differences between grass and dicotyledonous plant hosts using a data set obtained in another experiment at the same plots. Grass species hosted AM fungal communities with higher foraging speed, but lower foraging precision than the dicotyledonous species. Our study results support the use of field experiments for measuring comparative characteristics of AM fungi, which are highly elusive (or misrepresented) under controlled conditions. 相似文献
12.
While plant species respond differently to nutrient patches, the forces that drive this variability have not been extensively examined. In particular, the role of herbivory in modifying plant-resource interactions has been largely overlooked. We conducted a glasshouse study in which nutrient heterogeneity and root herbivory were manipulated, and used differences in foraging among plant species to predict the influence of root herbivores on these species in competition. We also tracked the influence of neighborhood composition, heterogeneity, and herbivory on whole-pot plant biomass. When herbivores were added to mixed-species neighborhoods, Eupatorium compositifolium, the most precise forager, was the only plant species to display a reduction in shoot biomass. Neighborhood composition had the greatest influence on whole-pot biomass, followed by nutrient heterogeneity; root herbivory had the smallest influence. These results suggest that root herbivory is a potential cost of morphological foraging in roots. Root herbivores reduced standing biomass and influenced the relative growth of species in mixed communities, but their effect was not strong enough at the density examined to overwhelm the bottom-up effects of resource distribution. 相似文献
13.
土壤养分空间异质性与植物根系的觅食反应 总被引:41,自引:5,他引:41
植物在长期进化过程中,为了最大限度地获取土壤资源,对养分的空间异质性产生各种可塑性反应.包括形态可塑性、生理可塑性、菌根可塑性等.许多植物种的根系在养分丰富的斑块中大量增生,增生程度种间差异较大,并受斑块属性(斑块大小、养分浓度)、营养元素种类和养分总体供应状况的影响.植物还通过调整富养斑块中细根的直径、分枝角、节问距以及空间构型来实现斑块养分的高效利用.根系的生理可塑性及菌根可塑性可能在一定程度上影响其形态可塑性.生理可塑性表现为处于不同养分斑块上的根系迅速调整其养分吸收速率,从而增加单位根系的养分吸收,对在时间上和空间上变化频繁的空间异质性土壤养分的利用具有重要意义,可在一定程度上弥补根系增生反应的不足.菌根可塑性目前研究较少,一些植物种的菌根代替细根实现在富养斑块中的增生.菌根增生的碳投入养分吸收效率较高、根系增生对增加养分吸收的作用较复杂,取决于养分离子在土壤中的移动性能以及是否存在竞争植物;对植物生长(竞争能力)的作用因种而异,一些敏感种由此获得生长效益,而其它一些植物种受影响较小.植物个体对土壤养分空间异质性反应能力和生长差异,影响其在群落中的地位和命运,最终影响群落组成及其结构. 相似文献
14.
Foraging for nutrients, responses to changes in light, and competition in tropical deciduous tree seedlings 总被引:8,自引:0,他引:8
We evaluated (1) the responses of two co-occurring tropical tree species, Heliocarpuspallidus and Caesalpiniaeriostachys, to changes in light, (2) the ability of these species to search for and exploit a fertilized soil patch, (3) the relationship
between the capacity to forage for a fertilized patch and the capacity to respond to changes in light availability and (4)
how the relationship between light and nutrient acquisition influenced the competitive interactions between these species.
Plants of the two species were exposed to a factorial combination of high (H) and low (L) light intensity and fertilized (+Fp)
and unfertilized (−Fp) nutrient patches for 50 days. Half of the plants from H were then transferred to L (HL treatment),
and half of the plants from L were transferred to H (LH). The remaining plants were kept in their original light condition
and grown for another 50 days. Plants were grown in these light and patch treatments alone (one plant per pot) and in interspecific
competition (one plant per species resulting in two plants per pot). Both species exploited fertilized patches by increasing
root biomass and length in the patch. This enhanced plant productivity and growth rate mainly under LH and HH conditions for
Heliocarpus and the HH condition for Caesalpinia). When plants in the HH light environment were grown with an unfertilized patch, plant biomass and relative growth rates
(RGRs) were even lower than␣under the LL light environment [(HH–Fp)<LL]. However, the combined activity of shoot and roots
when above- and below-ground resources were temporally and spatially heterogeneous influenced plant productivity and growth
rate. The benefit from light increase (LH) was reduced when grown with an unfertilized patch. Larger reductions in root biomass,
length and density in the patch, and in plant biomass and RGR, were exhibited by Heliocarpus than by Caesalpinia. These results suggest a close relationship between root foraging and light capture, where the benefit of the exploitation
of the patch will be reflected in whole-plant benefit, if enough light is captured above-ground. In addition, the results
suggest a change in the expected plant responses to light due to heterogeneity in soil nutrients, even though the fertilized
patch was only a small proportion of the total soil volume. Leaf characteristics such as specific leaf area responded only
to light conditions and not to patchily distributed nutrients. Root characteristics responded more strongly to nutrient heterogeneity.
Competition modified the pattern of foraging under both high- and low-light conditions in Heliocarpus by 50 days, and the ability to forage for a fertilized patch under LL after 100 days of growth for Caesalpinia. Even though plant growth and productivity are greatly reduced under low-light conditions (HL and LL), competition modifies
the ability of species to forage for a rich patch (especially for the fast-growing species Heliocarpus).
Received: 24 November 1997 / Accepted: 15 June 1998 相似文献
15.
Water redistribution from bare soil to vegetation patches is a key feature of semi-arid ecosystems, and is responsible for their patchy vegetation patterns. The magnitude of water redistribution depends on the properties of the bare soil (which determine the amount of water run-off) and the capacity of vegetation patches to trap water run-on. We examined the relationships between plant spatial patterns, water infiltration into bare soil, and plant community composition in semi-arid sites with different hydro-physical properties (silty and gypseous soils) in NE Spain. We also studied the effect of two stressors, aridity and grazing, on water infiltration and plant spatial patterns. Our results indicate a negative correlation of bare soil sorptivity (the capacity to absorb water by capillarity) and vegetation aggregation. There was a strong positive correlation between perennial grass cover and the spatial aggregation of vegetation, but aggregation was not associated with positive associations of different plant types. The aggregation of vegetation was positively correlated with species richness and the overall extent of vegetation cover. Grazing reduced water infiltration into silty soils, which are prone to compaction. In contrast, soil crust affected the hydrology of gypseous soils, especially in the most arid sites, where grazing increased infiltration, reducing surface sealing due to breaking of the soil crust. Together, our results suggest that biotic and abiotic factors affect the hydro-physical properties of soils in the semi-arid ecosystems of NE Spain, which is linked to the plant communities through the spatial distribution of plants. 相似文献
16.
Spatially complex neighboring relationships among grassland plant species as an effective mechanism of defense against herbivory 总被引:2,自引:0,他引:2
Ling Wang Deli Wang Yuguang Bai Yue Huang Meng Fan Jushan Liu Yexing Li 《Oecologia》2010,164(1):193-200
Close spatial relationships between plant species are often important for defense against herbivory. The associational plant
defense may have important implications for plant community structure, species diversity, and species coexistence. An increasing
number of studies have focused on associational plant defense against herbivory at the scale of the individual plant and its
nearest neighbors. However, the average neighborhood effects between plant species at the scale of whole plant communities
have received almost no attention. The aims of this study were to determine patterns of spatial relationship between different
plant species that can provide effective defense against herbivory. We conducted a manipulative experiment using sheep and
three native plant species with different palatability. Consumption of palatable plants by herbivores was largest when the
three plant species were isolated in three patches and independent of each other. A homogenous and spatially equal neighbor
relationship between the three species did not reduce the risk of herbivory of palatable species compared to isolation of
these species, but it reduced the total intake of all plant species. The palatable species was subject to less herbivory in
a complex spatial neighborhood of several plant species. High complexity of spatial neighborhood resulted in herbivores passively
reducing selectivity, thereby reducing the probability of damage to palatable species in the community, or making inaccurate
judgments in foraging selectivity between and within patches, thereby reducing the vulnerability of palatable plants and even
the whole plant community. We conclude that compelling herbivores to passively reduce the magnitude of foraging selectivity
by establishing spatially complex neighborhoods between plant species is a compromise and optimal spatial strategy by plants
to defend themselves again herbivory. This may contribute not only to maintenance of plant species diversity but also to a
stable coexistence between herbivores and plants in grassland ecosystems. 相似文献
17.
为了阐明放牧干扰对川西亚高山区域植物群落的组合过程以及群落结构的影响, 研究了放牧干扰梯度下的功能群均匀度和群落谱系结构的变化趋势。结果显示: 在干扰较轻的阔叶林与针叶林样地, 部分样方的功能群均匀度显著高于无效模型, 随着干扰梯度的增强, 功能群均匀度呈线性下降, 样方平均值从0.930降至0.840, 其高于无效模型的次数也逐渐降低, 干扰程度较大的草甸中出现部分样方的功能群均匀度显著低于无效模型。随着干扰程度的增强, 群落的谱系结构指数也呈逐渐上升趋势, 净关联指数平均值由-0.634逐渐增加至2.360, 邻近类群指数由-0.158上升至2.179。草甸与低矮灌丛受干扰较为严重, 其大部分样方的谱系结构指数显著高于随机群落, 表明干扰群落的谱系结构呈聚集分布。功能群均匀度与谱系结构的变化趋势一致, 表明生境筛滤效应与种间竞争作用的平衡决定着群落的组合过程。干扰降低了竞争作用, 促进了少数耐干扰功能群的优势地位, 造成功能群均匀度下降, 同时通过生境筛滤作用, 使群落的谱系结构呈现出聚集分布; 而未干扰的群落中由于竞争作用的效应, 功能群均匀度较高, 谱系结构也更加分散。研究区域植物群落的功能群均匀度与物种丰富度呈负相关, 表明物种间特别是相似物种间的竞争限制了群落的物种多样性。研究结果说明, 生态位分化和物种间的相互竞争在物种共存与群落组合中具有重要作用。 相似文献
18.
Interspecific competition can strongly influence community structure and limit the distribution and abundance of species. One of the main factors that determine hummingbird community structure is competition for food. The temporal and spatial distribution of nectar has a strong impact on hummingbird assemblages, shaping foraging niches according to hummingbird dominance and foraging strategy. We investigated whether body size and the degree of aggressive dominance influence feeding behaviour of hummingbirds in a temperate forest in northwestern Mexico (El Palmito, Mexico) when winter migrant hummingbirds are present in the community. First, we determined the dominance status of hummingbirds and evaluated the relationship between dominance and body mass, wing disc loading and migratory status. Secondly, we determined how hummingbird species used plant species differently. Thirdly, we examined whether the most dominant hummingbird species defended floral patches with more energy and/or with a larger number of flowers. At each flower patch, hummingbird species, number of hummingbird interactions, feeding time and number of flowers present were recorded. The total number of calories available within each floral patch was also determined. Our results demonstrate that the dominance hierarchy of 13 hummingbird species (migratory and resident) was correlated with body size but not wing disc loading, and that members of the hummingbird community showed a clear separation in resource use (by plant species). Hummingbirds at the top of the dominance hierarchy defended and fed on the best flower patches, defined by the quantity of calories available. Hence, the feeding behaviour of hummingbirds at El Palmito depends on the abundance of plant species used by hummingbirds and on the amount of energy available from each flower patch. Thus, hummingbird body size, aggressive dominance and defence of quality flower patches determines niche partitioning among species. 相似文献
19.
Bi-Cheng Dong Jiu-Zhong Wang Rui-Hua Liu Ming-Xiang Zhang Fang-Li Luo Fei-Hai Yu 《Journal of Plant Ecology》2015,8(1):91
Aims Soil heterogeneity is common in natural habitats. It may trigger foraging responses (placing more ramets and/or roots in nutrient-rich patches than in nutrient-poor patches) and further affect the growth of plants. However, the impact of soil heterogeneity on competitive interactions has been little tested.Methods We conducted a greenhouse experiment to investigate the effects of soil heterogeneity on intraspecific competition with a stoloniferous herb Hydrocotyle vulgaris. We grew one (without competition) or nine ramets (with competition) of H. vulgaris under a homogeneous environment and two heterogeneous environments differing in patch size (large or small patches). In the heterogeneous treatment, the soil consisted of the same number of nutrient-rich and nutrient-poor patches arranged in a chessboard manner, and in the homogeneous treatment, the soil was an even mixture of the same amount of the nutrient-rich and the nutrient-poor soil.Important findings Irrespective of intraspecific competition, H. vulgaris showed foraging responses to soil heterogeneity in the large patch treatment, e.g. it produced significantly more biomass, ramets, aboveground mass and root mass in the nutrient-rich patches than in the nutrient-poor patches. In the small patch treatment, foraging responses were observed when intraspecific competition was present, but responses were not observed when there was no competition. However, we find a significant effect of soil heterogeneity on neither overall growth nor competitive intensity of H. vulgaris. Our results suggest that foraging responses to soil heterogeneity may not necessarily be adaptive and intraspecific competition may not be influenced by soil heterogeneity. 相似文献
20.