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1.
Roberto Canullo Enrico Simonetti Marco Cervellini Stefano Chelli Sándor Bartha Camilla Wellstein Giandiego Campetella 《Folia Geobotanica》2017,52(1):71-81
The silvicultural management of coppicing has been very common in deciduous forests in many European countries. After decades of decline of this practice, socio-economic changes might induce a revival valuing the biomass as a resource. New insights in the ecological processes that regulate plant diversity are relevant for a sustainable forest management. While studies on long-term changes are available, the short-term dynamics of the coppice forest understorey has not yet been explored. In this context, it is interesting to evaluate the species compositional changes, including the processes of species turnover and species impoverishment (nestedness) and to investigate the role of plant functional traits. For this purpose, we resampled a chronosequence of complex coppice beech forests of the Central Apennines (Italy) monitoring the short-time species dynamics of five years (i.e. from 2006 to 2011) in three age classes, i.e. post-logged, recovering and old coppice stands (0–16, 17–31 and > 32 years, respectively). In contrast to our expectation, declining species richness appeared only in the recovering stands, while the landscape scale (between-stand) heterogeneity, except for post-logged and recovering stands in 2011, did not change over five years. Significant temporal nestedness was found in each stage of succession. However, the rate of species turnover and species impoverishment do not significantly differ among the three age classes, indicating their constant importance along the forest regeneration after disturbance. Only in the early stage of forest regeneration after coppicing, species compositional changes are reflected by functional changes with surviving understorey species having clonal regeneration traits. Our results suggest an overall landscape-scale stability (and sustainability) of this coppice forest system. We conclude with management indications, highlighting the importance of maintaining the traditional local approach (coppicing with standards in small 0.5–1.0 ha sized management units with a ca 30-year rotation cycle) where active coppice parcels are interspersed by abandoned stands. 相似文献
2.
Many theoretical studies of evolution are based upon the concepts of the evolutionary stable strategy and optimal life-history solutions. An individual based model of vegetation is used to simulate life-history evolution under two different sets of environmental conditions. At one level the results suggest that optimal life-history solutions do appear to evolve. At the end of the simulations the vegetation that evolved in a fertile and uncut environment was taller, thinner and germinated later than that which developed in a less fertile and cut habitat. However, between simulation variation was observed to be high, particularly for the parameter regulating the timing of reproduction, and it showed no indication of reaching fixation. When this trait was prevented from mutating, the variances of other traits were seen to increase. Although at the population level between simulation variation was high, some traits achieved a degree of stability within simulations, suggesting that multiple adaptive peaks may be being approached. However, there was little evidence of trait fixation occurring within the most abundant genotype. It is considered that frequency dependent selection/Red Queen dynamics may be acting to prevent the most abundant genotype from reaching fixation. It is argued that if such processes prevent optimal genetic solutions from being achieved then the search for evolutionary stable strategies within the evolution of life-histories may be over simplistic. 相似文献
3.
KEVIN M. DUNHAM 《African Journal of Ecology》1990,28(3):200-212
Seasonal changes in biomass, productivity and large mammal utilization of annual grasslands on Zambezi alluvium in Mana Pools National Park, Zimbabwe, were recorded over four years and compared with perennial grasslands. Annual grasses grew only in the wet season, but forb productivity peaked at the start of the dry season. Large mammals and termites ate dead annual grasses in the dry season. Production was usually greater in perennial grasslands, than in annual ones, and perennial grasses often grew throughout the year. Large mammal utilization of grasslands varied between 53 and 99% of annual production.
L'on rapporte les changements saisonniers de biomasse, productivité et utilisation par les grands mammifères des herbages annuels dans les plaines alluviales du Zambèze au Parc National de Mana Pools, Zimbabwe, pendant 4 ans et on les compare avec ceux des herbages pérennes. Les herbes annuelles ne croissent que pendant la saison des pluies mais la productivité du fourrage était au maximum en début de pérennes que dans les annuels et les herbes pérennes poussaient souvent tout au long de I'année. L'utilisation par les grands mammifères variait de 53 à 99% de la production annuelle. 相似文献
Résumé
L'on rapporte les changements saisonniers de biomasse, productivité et utilisation par les grands mammifères des herbages annuels dans les plaines alluviales du Zambèze au Parc National de Mana Pools, Zimbabwe, pendant 4 ans et on les compare avec ceux des herbages pérennes. Les herbes annuelles ne croissent que pendant la saison des pluies mais la productivité du fourrage était au maximum en début de pérennes que dans les annuels et les herbes pérennes poussaient souvent tout au long de I'année. L'utilisation par les grands mammifères variait de 53 à 99% de la production annuelle. 相似文献
4.
Recovery of herbaceous vegetation on Mount St. Helens was studied annually after the massive lateral eruption of May 18, 1980. Measures such as species richness, cover, and diversity were combined with detrended correspondence analysis to describe vegetation recovery rates under different combinations of initial impact intensity and degree of isolation from recolonization sources. A major key to recovery is whether any plants survived the devastation. Survival of even a few individuals markedly accelerated recovery. Where no plants survived, the degree of isolation becomes paramount. New, barren substrates, a few meters from undisturbed sites, have begun to develop some vegetation, while more isolated sites have scarcely any subalpine plants present. On any site, plant-mediated processes that improve conditions for growth and the invasion of other species predominate in the early stages, but as vegetation develops, biotic inhibition and establishment of seedlings from adults already in the habitat gain importance. The rate at which this conversion occurs is a function of the size and intensity of the initial impact.Abbreviations DCA
Detrended correspondence analysis 相似文献
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6.
The effects of productivity on the parameters of the species–area curve were investigated in this paper using two data sets on terrestrial plant communities: (1) one including 48 plots in 12 experimental sites on ploughed, formerly cultivated fields in the Siena region, Italy, and (2) one including 40 plots in hay meadows in the Bremen region, Germany. In both regions, species presence of vascular plants was recorded in nested plots ranging in size from 0.004 to 256 m2 and 0.001 to 1000 m2, respectively. Productivity was estimated as dry standing biomass. In the Siena data set, species richness showed a humped‐back relation to biomass in the plot sizes up to 1 m2. For the larger plot sizes, no significant correlations were found. In the Bremen data set, positive relation between species number and biomass was observed at the smallest spatial scale (0.001 m2), whereas the relation disappeared or tended to be negative for the larger plot sizes. In general, the slopes z of the log species–log area curves (SAC) were negatively related to biomass in both data sets, while the intercept c increased with biomass in the Siena data set and was unrelated to biomass in the Bremen data set. The relationship between c and z was negative in the Siena data set and positive in the Bremen data set. The above results differed somewhat depending on which plot sizes were considered for the calculation of the SAC. Literature data confirmed that there are no clear patterns in the inter‐correlations between productivity, small scale and large scale species richness. Sites differing in productivity and in the slopes and intercepts of SAC may thus give rise to different species richness–productivity relationships. There can be one possible relation between species richness and biomass at one spatial scale (e.g. humped‐back) and another type of relation, even opposite, at another spatial scale. This suggests that the properties of species–area curves do not respond in a uniform way to the changes in productivity, but depend on the type of habitat or plant community and its particular properties. The parameter of the SAC can then hardly be used as scale‐independent parameter to investigate the effects of ecological factors, such as productivity, on species richness. The lack of clear patterns in the relations between small scale and large scale species richness implies that the predictions of the species‐pool hypothesis may fail when applied to plot sizes as dealt with in this study. 相似文献
7.
The coppice stands under the climatic conditions of Warmth Index (WI)≧85°C·month, and Coldness Index (CI)≦−10°C·month could
be classified into aQuercus serrata type andCarpinus types at a heavy snowfall climate region of central Japan. The latter types tended to be more distributed on steeper slopes
rather than the former. An analysis of tree forms and growth rates of species could reveal the characteristic of this habitat
and vegetation type. The growth rates of stem diameter of dominant species on a gentle slope were higher than ones on a steep
slope. However, the dominant species on the steeper slope had plasticity to basal bend with sustentacular roots, which is
one form of tolerance of heavy snowfall on steep slopes. Average mortality during 14 years was 26%, irrespective of the gradient
of a slope. More than one-third of dead shoots were induced by direct damage, while cracked or broken pieces of a stem were
from heavy snowfall. The shoot density at smaller diameter classes tended to be higher at a stand having high horizontal variance
of canopy surface caused by basal bend of big shoots. A frequency distribution function of individual tree weight (w), f(w)=pw−3/2, could be obtained at each coppice stand by statistical analysis. The value of a parameter p, a packing factor, tended to
be higher at stands on steeper slopes consisting of largely bent shoots and was constant irrespective of the growth. 相似文献
8.
荒漠地区因土壤水分和养分含量较低而限制了植被的生长,且磷素对于植物的生长具有重要的作用。利用人工施加磷素的控制实验研究了不同磷肥处理对荒漠区草本植物物种丰富度、多度、盖度、生物量、植物株高等群落学特征的影响。实验表明:物种丰富度和多度在施肥量分别为12.5,25和50 g?m-2的梯度下,施肥当年和第二年相较于对照均有所降低,且施肥梯度越高,降低越明显;植被盖度和地上部生物量则在两年的实验中表现出相似的规律,在不同的施肥梯度下均有所提高,高肥处理对其促进作用更大,且在降水充足的07年高于降水较少的08年,说明水肥耦合更有助于群落生产力的提高;优势种株高则对磷素的响应存在种间差异,年际间的差异也较大,这或许与荒漠植物本身特有的生物学特性有关。 相似文献
9.
山东四种草本植物的核型研究 总被引:3,自引:2,他引:3
本文对山东4种草本植物进行了染色体研究。结果表明:阿尔泰狗哇花(Heteropappusal taicus(Wild)Navopokr)的染色体数目为2n=36,核型公式为K(2n)=36=36m,核型“1A”型;求米草(Oplismenusundulatifolius(Arduino)RoemetSchult)的染色体数目为2n=12,核型公式为K(2n)=12=8m+4sm,核型“2A”型;红秋葵(Hibiscuscocineus(Medic)Walt)的染色体数目为2n=38,核型公式为K(2n)=38=14m+22sm+2st,核型“2B”型;蟋蟀草(Eleusineindica(L)Gaertn)的染色体数目为2n=18,核型公式为k(2n)=18=16m+2sm,核型“2A”型。 相似文献
10.
Ten trees (5–70 m2 canopy area) were selected to determine effects of tree size (crown area) on herbaceous species composition and biomass in a Quercus emoryi savanna in southeastern Arizona. Consistent with most studies in temperate savannas, herbaceous biomass was reduced beneath the canopy relative to grassland areas. However, tree size appeared to exert no influence over herbaceous biomass. In contrast to most temperate savannas, Q. emoryi trees did not affect distribution of herbaceous species. 相似文献
11.
A functional classification of herbaceous hedgerow vegetation for setting restoration objectives 总被引:1,自引:0,他引:1
C. N. R. Critchley L. A. Wilson A. C. Mole L. R. Norton S. M. Smart 《Biodiversity and Conservation》2013,22(3):701-717
Hedgerows are valuable habitats for biodiversity in farmed landscapes. The herbaceous vegetation at the hedge base is an important component of this habitat but its condition in Britain has deteriorated due to a combination of nutrient and pesticide contamination, and inappropriate management or neglect. The condition of herbaceous hedgerow vegetation is included in policy targets for biodiversity conservation, so a strategy is required for its restoration. This vegetation can be highly variable, so a classification of the main types is required to set realistic objectives. Vegetation classifications based on species’ functional characteristics can have more general application that those based on species identity. Using existing datasets from a countrywide survey, a functional classification of herbaceous vegetation from hedgerows in Britain was developed. Cluster analysis of vegetation plots, based on attributes of the species present, produced thirteen vegetation types in six broad groups. These were differentiated by the association of the component species with woodland, grassland or arable habitats and by gradients of soil nutrient status and pH, light availability, disturbance and grazing tolerance. By using species’ ecological characteristics as a basis for the classification, the condition of vegetation can be established and the prevailing environment predicted. From this information, a realistic strategy for restoration can then be determined. 相似文献
12.
以沙坡头人工固沙区草本层片植物为研究对象,分析不同氮肥处理下,物种丰富度、多度、盖度、高生长以及地上部生物量等群落学特征对不同氮肥水平的响应。人工施加氮肥1年的试验结果表明:除50g·m-2的施肥水平外,其他各施肥水平下群落物种丰富度均高于对照;多度随施肥梯度的增加整体上呈下降趋势,施肥梯度越高,下降越明显,其中在50g·m-2的施肥水平下,多度相比于对照下降了86.7%;盖度随施肥水平梯度的增大呈先上升后下降的趋势,在20g·m-2的施肥水平下盖度达到最大值,其与对照间的差异达到了显著性水平(P<0.05);植物高生长对氮肥水平的响应存在种间差异;地上部生物量则在低肥水平下高于对照,而高肥水平下低于对照。总体而言,氮肥水平对荒漠生态系统群落物种多样性和生产力的影响呈低肥促进、高肥抑制的效应。 相似文献
13.
Evapotranspiration and crop coefficient of poplar and willow short-rotation coppice used as vegetation filter 总被引:1,自引:0,他引:1
Ten-day evapotranspiration (ETc) and crop coefficient (k(c)) of willow and poplar SRC used as vegetation filter and grown under fertilised (F) and unfertilised (NF) conditions, were determined for two successive growing seasons using volumetric lysimeters. During the first growing season, total ETc observed was, respectively, 620 (NF)-1190 (F)mm in willow and 590 (NF)-725 (F) in poplar. During the second growing season, ETc showed a general increase, mainly in fertilised lysimeters where it ranged between 890 (NF)-1790 mm (F) in willow and 710 (NF)-1100 mm (NF) in poplar. kc reached in both years its maximum between the end of August and the beginning of September. In 2004 maximum kc ranged from 1.25-2.84 in willow and 1.06-1.90 in poplar, whereas in 2005 it ranged from 1.97-5.30 in willow and 1.71-4.28 in poplar. ETc seemed to be strongly correlated to plant development and mainly dependent on its nutritional status rather than on the differences between the species. 相似文献
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15.
In Dutch coastal dunes the relation was studied between the composition of the vegetation on the banks of pools and the nutrients supplied by the groundwater. Areas infiltrated with eutrophic river water were compared with non-affected areas. The floristic composition was interpreted according to classification systems of ruderal, nitrophilous tall hemicryptophytes and the conservation parameters richness and rarity. Of the three main macro-nutrients (orthophosphate, nitrate and potassium), the orthophosphate load shows the highest correlation with the vegetation variables. It is suggested that a reduction of orthophosphate during pre-purification of the infiltration water would reduce the dominance of the ruderals to the extent that the original dune slack species could return locally.Nomenclature of species follows Arnolds & Van der Meijden (1975).We thank G. J. de Bruyn, W. H. van Dobben, W. T. de Groot, W. J. ter Keurs, F. van der Meulen, W. H. van der Molen, M. A. W. Noordervliet, and I. S. Zonneveld for their comments on the study; J. Braak, J. Brakkee and R. van Nood for their assistance with the chemical analyses; A. R. Kaal for the translation, and G. P. G. Hock for the drawing of the figures. 相似文献
16.
The spectral properties of the leaves of the herbaceous species Brassica oleracea L. var. botrytis L., Cerastum tomentosum L., Petunia hybrida Vilm., and Talinum paniculatum (Jacq.) Gaertn. were examined to see what effect the epidermis had on leaf absorptance, reflectance and transmittance. Removal of the epidermis from the side of the leaf surface being illuminated resulted in increases in leaf absorptance and transmittance, and a decrease in reflectance in the 400–800 nm waveband. Removal of the epidermis from the opposite side of an illuminated leaf (effect was similar in both abaxial and adaxial surfaces) resulted in small decreases in both absorptance and reflectance, and corresponding increases in transmittance. Removal of both the upper and lower epidermis resulted in a marked increase in transmittance, while both leaf reflectance and absorptance were decreased. The results suggest that the presence of the epidermis significantly increases leaf absorptance in the photosynthetic wavebands. 相似文献
17.
Peter Milan Petersen 《Nordic Journal of Botany》2002,22(4):463-481
In 57 sample plots in neglected coppices on Langeland, Denmark (14—c. 125 years since last coppicing) the cover of trees and shrubs was analysed by the method of Domin-Krajina and the ground layer by the frequency method of Raunkiær. The data were analysed by DC A. The tree and shrub layer showed significant correlations with topsoil pH and litter depth. The ground layer was significantly correlated with inclination, area of the wood in which the coppice was situated, light, topsoil pH and the tree layer, and to a lesser extent with litter depth, but was not correlated with time since last coppicing. It is suggested that for some stands the suppression of Corγlus avellana by tree species ( Quercus robur, Fagus sylvatica, Carpinus betulus ) which form a permanent litter layer and acidify the soil is more important to the ground layer than the time elapsed since last coppicing per se. Formation of a permanent litter layer reduces species density, e-specially of some forest species without clonal growth. One main reason for the lack of correlation between the ground layer and time since coppicing may be the great environmental variation in the neglected coppices on Langeland. Another reason seems to be the absence of competitive forest species (which otherwise would benefit from non-intervention) due to the isolated position of the coppiced woods. It is concluded that neglect in excess of c. 35 years beyond the normal coppice rotation has some effect on the composition of the tree and shrub layer, but not a direct effect on the ground layer. 相似文献
18.
Summary Effectiveness of antitranspirants in reducing transpiration was studied in the laboratory in an attempt to evaluate their potential for conservation and reallocation of soil moisture. Film-forming antitranspirants caused about a 50% reduction of transpiration and photosynthesis in all species. Effectiveness decayed slowly over 10–14 days. Effectiveness of the silicone antitranspirant was very short-lived. Water use efficiency was slightly improved following film-forming antitranspirant treatment of three species. Mixing antitranspirants altered their effects.Research supported by the Bureau of Land Management in Cooperation with the Office of Water Research and Technology, United States Department of the Interior (OWRT Grant B-099) 相似文献
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