Species Richness Pattern along Altitudinal Gradient in Central European Beech Forests

Hrivnák, Richard; Gömöry, Dušan; Slezák, Michal; Ujházy, Karol; Hédl, Radim; Jarčuška, Benjamín; Ujházyová, Mariana

doi:10.1007/s12224-013-9174-0

Cited by 26 publications

(10 citation statements)

References 55 publications

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“…Recently, various studies were conducted-especially on plants-to assess how species richness of different lifeforms is influenced by elevation (Akhtar and Bergmeier 2015;Zhang et al 2016;Xu et al 2017). In some rare cases, researchers found the same relationship between elevation and species richness (unimodal or monotonic) for all the studied lifeforms (Sánchez-González and López-Mata 2005;Hemp 2006;Hrivnák et al 2014;Xu et al 2017) but, more often, this relationship differs between the lifeforms (Zhao et al 2004;Grytnes et al 2006;Ren et al 2006;Gairola et al 2008;Akhtar and Bergmeier 2015;Zhang et al 2016;Nanda et al 2018). Some of these works have been performed in small elevation gradients and most of them in temperate climates.…”

Section: The Elevational Pattern Of Species Richness Depends On the Smentioning

confidence: 82%

The effect of elevation on species richness in tropical forests depends on the considered lifeform: results from an East African mountain forest

et al. 2019

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Your article is protected by copyright and all rights are held exclusively by International Society for Tropical Ecology. This e-offprint is for personal use only and shall not be selfarchived in electronic repositories. If you wish to self-archive your article, please use the accepted manuscript version for posting on your own website. You may further deposit the accepted manuscript version in any repository, provided it is only made publicly available 12 months after official publication or later and provided acknowledgement is given to the original source of publication and a link is inserted to the published article on Springer's website. The link must be accompanied by the following text: "The final publication is available at link.springer.com".

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Section: The Elevational Pattern Of Species Richness Depends On the Smentioning

confidence: 82%

The effect of elevation on species richness in tropical forests depends on the considered lifeform: results from an East African mountain forest

et al. 2019

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“…It is known that species richness is negatively related to the competition between species [29]. Low species richness indicates a higher competition for resources, which is conducive to the development and accumulation of above-ground biomass [30]. Therefore, for the effective soil water use and sustainable development of eco-economy, the optimum growth period of alfalfa pasture should be maintained at four years in the Tibetan Plateau, and it should be rotated to another crop after the fourth year of plantation.…”

Section: Discussionmentioning

confidence: 99%

Soil Water Depletion in Planted Alfalfa Pastures in an Alpine Pastoral Area

Sun

Huang

Cui

et al. 2018

Water

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Alfalfa (Medicago sativa) has strong stress resistance, high nutritional value, good palatability for cattle, high yield and a drought tolerance mechanism, but long-term planting leads to soil desiccation. This research was carried out to examine the soil water conditions of alfalfa pastures with different planted ages, and determine the optimum time for alfalfa rotation in a plateau area of a sub-alpine monsoon climate. Soil water depletion, soil compaction and vegetation characteristics of alfalfa pastures of different ages (i.e., two, four and seven years) were assayed and compared with those of a cornfield which served as the control crop. Three 20 × 20 m plots and five random quadrats per plot were established at each field. Soil water contents at 0–400 cm depth and plant biomass were compared among different vegetation types, soil transects and planting years. The results showed that at the 250–400 cm depth, the soil water storage of the four- and seven-year-old alfalfa pastures was much lower than in the two-year-old alfalfa pasture and in the cornfield. Moreover, the degree of soil water storage deficit of the four- and seven-year-old alfalfa pastures was much higher than in the other fields. Soil compaction of alfalfa pastures increased with increasing planting age and reached a peak value in the seven-year-old alfalfa pasture. The highest above-ground biomass was observed in the four-year-old alpine alfalfa pasture. Thus, the best cultivation period for alfalfa pastures was four years from the perspective of higher yield and lower soil water consumption in pastoral sub-alpine areas. This study provided a basis for sustainable alfalfa pasture cultivation, timely harvest, rotation and water management measures to be implemented in alpine grazing lands.

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“…The unimodal response appears to be universal and other linear trends can be addressed to habitat-related biases such as restricted length of analysed gradient. It has been also found that size and composition of local species pool (Hrivnák et al 2014) and environmental conditions expressed through the effect of several often covarying factors vary along the altitudinal gradient (Rahbek 2005). The positive effect of the short altitudinal gradient (330-805 m) revealed in our study presumably reflects better growth conditions at higher altitudes (submontane zone) of this region, where both increasing precipitation and prevalence of only slightly acidic and neutral soil substrates jointly support higher herb-layer productivity.…”

Section: Herb-layer Vascular Plantsmentioning

confidence: 96%

“…Vegetation patterns are also controlled by an altitudinal gradient which does not represent an ecological factor per se. Its impact is ultimately caused by abiotic forces (i.e., changes in a set of site-specific conditions) and stochastic processes (Hrivnák et al 2014).…”

Section: Introductionmentioning

confidence: 99%

Patterns of plant species richness and composition in deciduous oak forests in relation to environmental drivers

Slezák¹,

Axmanová²

2016

Community Ecology

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Local plant species richness and composition may vary across habitats and between plant taxonomic groups within temperate deciduous forests. Multi-taxon approach is therefore needed to provide a more detailed insight into determinants affecting vegetation structure. Fifty-four deciduous oak-dominated vegetation plots (20 m × 20 m) were sampled across central Slovakia (�tiavnické vrchy Mts) in order to study the effect of environmental (soil, light, topographic) factors on species rich-�tiavnické vrchy Mts) in order to study the effect of environmental (soil, light, topographic) factors on species rich-vrchy Mts) in order to study the effect of environmental (soil, light, topographic) factors on species richness and composition patterns of two main assemblages of understorey layer (herb-layer vascular plants and ground-dwelling bryophytes). The number of recorded herb-layer vascular plants and ground-dwelling bryophytes was 12-48 (mean 28) and 0-11 (mean 4) species per plot, respectively. Generalized linear model revealed that species richness of herb-layer vascular plants was driven by canopy openness, altitude, soil pH/base saturation gradient and plant-available phosphorus. Canopy openness and heat load index accompanied by soil pH/base saturation gradient determined changes of the ground-dwelling bryophyte richness. Canonical Correspondence Analysis identified soil pH/base saturation gradient, canopy openness, soil silt and topography related predictors (altitude, slope, radiation) as the main drivers of the herb-layer vascular plant compositional variability. Species composition variation of ground-dwelling bryophytes was controlled by radiation and canopy openness.Abbreviations: CCA -Canonical Correspondence Analysis, GLM -Generalized Linear Model, PCA -Principal Component Analysis Nomenclature: Marhold and Hindák (1998) for vascular plants and bryophytes.

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Species Richness Pattern along Altitudinal Gradient in Central European Beech Forests

Cited by 26 publications

References 55 publications

The effect of elevation on species richness in tropical forests depends on the considered lifeform: results from an East African mountain forest

The effect of elevation on species richness in tropical forests depends on the considered lifeform: results from an East African mountain forest

Soil Water Depletion in Planted Alfalfa Pastures in an Alpine Pastoral Area

Patterns of plant species richness and composition in deciduous oak forests in relation to environmental drivers

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