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Data from: Direct and indirect effects of shrub encroachment on alpine grasslands mediated by plant-flower visitor interactions
负责人:
关键词:
functional-biodiversity;pollination networks;specialization;Land-use change;native plant communities;2011
DOI:
doi:10.5061/dryad.p869n
摘要:
of global change. Land-use changes and global warming have elicited rapid shrub encroachment in alpine grasslands in recent decades, which may have detrimental
Data from: Progressively excluding mammals of different body size affects community and trait structure of ground beetles
负责人:
Risch, Anita C.
关键词:
Biodiversity Vertebrate Arthropod
DOI:
doi:10.5061/dryad.q5f2j75
摘要:
) mammals using size-selective fences in two vegetation types (short- and tall-grass vegetation) of subalpine grasslands. We then assessed how these
Data from: A trait-based framework for understanding predator-prey relationships: trait matching between a specialist snake and its insect prey
负责人:
关键词:
Vipera ursinii;Vipera graeca;Orthoptera;trait data;Viperidae;feeding ecology;insectivory;grassland;entomophagy;trophic network
DOI:
doi:10.5061/dryad.5nj70ks
摘要:
e-known, endangered snake of alpine grasslands in the Pindos Mountains of the Balkan Peninsula.4. We show that V. graeca is a unique, venomous snake specialised on bush
Data from: A population genetics perspective on the evolutionary histories of three clonal, endemic, and dominant grass species
负责人:
关键词:
Orinus;Orinus intermedius;Population Biology;alpine grassland;AFLP;Genetic Variation;Orinus thoroldii;Poaceae;Orinus kokonoricus;present;hybridization;Orininae
DOI:
doi:10.5061/dryad.403j5s4
摘要:
comprises three clonal grasses that are dominant species within xeric alpine grasslands of the Qinghai-Tibet Plateau (QTP). Here, we used eight selectively
Data from: Experimentally simulating warmer and wetter climate additively improves rangeland quality on the Tibetan Plateau
负责人:
关键词:
forage quality;precipitation;alpine rangeland;warming;Tibetan grasslands;forage production;climate change
DOI:
doi:10.5061/dryad.sq539
摘要:
in rainfall) in an alpine grassland on the north-eastern Tibetan Plateau, starting in 2011. From 2014–2016, we measured forage
Data from: Does functional soil microbial diversity contribute to explain within-site plant ?-diversity in an alpine grassland and a dehesa meadow
负责人:
关键词:
community structure;RDA (redundancy analysis);soil properties;scalogram;grassland;MEM (Moran\u2019s Eigenvector Maps) spatial variables
DOI:
doi:10.5061/dryad.qj195
摘要:
in Moscosa Farm, Salamanca, western Spain (dehesa community) and Laguna Larga in the Urbión Peaks, Soria, central-northern Spain (alpine grassland). Methods
Data from: Herbivory and competition of Tibetan steppe vegetation in winter pasture: effects of livestock exclosure and plateau pika reduction
负责人:
关键词:
grassland herbivory competition degradation livestock grazing pika
DOI:
doi:10.5061/dryad.qg8mb
摘要:
Rangeland degradation has been identified as a serious concern in alpine regions of western China on the Qinghai-Tibetan plateau (QTP). Numerous
Data from: The foraging ecology of the Mountain long-eared bat Plecotus macrobullaris revealed with DNA mini-barcodes
负责人:
关键词:
diet;DNA Barcoding;Lepidoptera;Plecotus macrobullaris;habitat;Predator-prey interactions;foraging behaviour;Alpine species;Chiroptera
DOI:
doi:10.5061/dryad.611310kt
摘要:
tly in subalpine meadows, followed by other open habitats such as orophilous grasslands and alpine meadows. No forest prey species were identified in the diet. As 96
Data from: Disentangling evolutionary, environmental and morphological drivers of plant anatomical adaptations to drought and cold in Himala
负责人:
关键词:
Elevation;comparative plant anatomy;evolutionary inertia;parenchyma cells;Graminoids;Himalaya
DOI:
doi:10.5061/dryad.66th54k
摘要:
ow that stem anatomical variations in grasses, sedges and rushes dominating in western Himalayan grasslands are driven by elevation and soil moisture vi
Data from: Soil fungal communities of grasslands are environmentally structured at a regional scale in the Alps
负责人:
关键词:
Trifolium medium;Microglossum;Anthoxanthum odoratum;Clavulina;Anthriscus sylvestris;Helianthemum nummularium;Arabis alpina;Juncus effusus;Vaccinium gaultherioides;Scabiosa lucida;Saxifraga paniculata;Cadophora;Ligusticum mutellina;Phyteuma spicatum;Achillea millefolium;Hypericum maculatum;Ranunculus aconitifolius;Lecythophora;Galium megalospermum;Geranium sylvaticum;Poa supina;Glechoma hederacea;Environmental DNA;Leontodon helveticus;Bromus hordeaceus;Carex atrata;Rumex acetosa;Helictotrichon versicolor;Polygala chamaebuxus;Calamagrostis varia;Luzula multiflora;Ajuga reptans;Trisetum flavescens;Alchemilla vulgaris;Tetracladium;Environmental Metagenomics;Rhinanthus alectorolophus;Russula;Arrhenatherum elatius;Poa minor;Prunella vulgaris;Gentiana verna;Festuca rubra;Trifolium badium;Pedicularis foliosa;Filipendula ulmaria;Cirsium acaule;Daucus carota;Coprinus;Trifolium pratense;Salix herbacea;Ononis repens;Knautia arvensis;Mortierella;Athamanta cretensis;Campanula cochleariifolia;Homogyne alpina;Taraxacum officinale;Rumex crispus;elevation gradient;Lolium perenne;Gibberella;Carex ferruginea;Tragopogon pratensis;Rhinanthus minor;Silene vulgaris;Campanula glomerata;Saxifraga aizoides;Molinia caerulea;Acaulospora;Embellisia;Rhododendron ferrugineum;Gentiana lutea;Cerastium latifolium;Androsace chamaejasme;Cerastium fontanum;Aster bellidiastrum;Herpotrichia;Gentiana acaulis;Trichosporon;Cudoniella;Saxifraga moschata;Lolium multiflorum;Polygonum viviparum;Crepis pyrenaica;Gentiana bavarica;Medicago lupulina;Tofieldia calyculata;Festuca pratensis;Festuca quadriflora;Fungi;Ranunculus alpestris;Phialocephala;Caltha palustris;Cryptococcus;Campanula rotundifolia;Valeriana montana;Cerastium arvense;Hippocrepis comosa;Thlaspi rotundifolium;Leucanthemum vulgare;Metarhizium;Chaerophyllum hirsutum;Species Interactions;Ranunculus acris;Leontodon autumnalis;Poa alpina;Carex pallescens;Hedysarum hedysaroides;Plantago media;Veronica officinalis;Vicia sepium;Anemone narcissiflora;mitosporic Trichocomaceae;Geum rivale;Gentiana campestris;Carex sempervirens;Myosotis arvensis;Cosmospora;Soldanella alpina;Carex flacca;Phleum pratense;Lathyrus pratensis;Rhodotorula;Glomus;Crepis vesicaria;Campanula scheuchzeri;Articulospora;Thymus praecox;environmental gradients;Monodictys;Gypsophila repens;Solidago virgaurea;Thesium alpinum;Pimpinella saxifraga;Pulsatilla alpina;Carduus defloratus;Centaurea montana;Community Ecology;Prunella grandiflora;Holcus lanatus;Primula farinosa;Veratrum album;Leohumicola;Trollius europaeus;Carex sylvatica;Luzula campestris;Primula veris;Cladophialophora;Viola biflora;Deschampsia cespitosa;Vaccinium myrtillus;Pimpinella major;Centaurea jacea;Silene acaulis;Veronica persica;Camarophyllopsis;Polygonum bistorta;Arnica montana;Bromus erectus;Kernia;Alchemilla conjuncta;Centaurea scabiosa;Lachnum;Diversispora;Poa cenisia;Brachypodium pinnatum;Olpidium;Astrantia major;Hypochaeris radicata;Lotus corniculatus;Trifolium montanum;Lysimachia nummularia;Sanguisorba minor;Senecio doronicum;Preussia;Acinos alpinus;Achillea atrata;Onobrychis montana;Aposeris foetida;Cruciata laevipes;Adenostyles glabra;Knautia dipsacifolia;Potentilla erecta;Euphorbia cyparissias;Landscape Genetics;Fragaria vesca;Pritzelago alpina;Stachys officinalis;Bellis perennis;Festuca violacea;Phleum rhaeticum;Dryas octopetala;Primula elatior;Salvia pratensis;Saxifraga oppositifolia;mitosporic Herpotrichiellaceae;Podospora;Linum catharticum;Agrostis schraderiana;Exophiala;Origanum vulgare;Trifolium repens;Ganoderma;Campanula barbata;Cirsium oleraceum;Plantago major;Poa trivialis;Veronica chamaedrys;Carlina acaulis;Anthyllis vulneraria;Poa pratensis;Vicia cracca;Agrostis capillaris;Holocene\/Anthropocene;Dactylis glomerata;Ranunculus montanus;Geomyces;Tussilago farfara;Entoloma;Phyteuma orbiculare;Carex nigra;Geum montanum;Globularia nudicaulis;Doronicum grandiflorum;Myosotis alpestris;Alatospora;Phleum hirsutum;Taraxacum alpinum;Vicia sativa;Agrostis rupestris;Hieracium villosum;Ranunculus repens;Laccaria;Hieracium lactucella;Cylindrocarpon;Luzula sylvatica;Cirsium spinosissimum;Polygala vulgaris;Salix retusa;plant-fungi interactions;Inocybe;Gentiana purpurea;Agrostis alpina;Plantago alpina;Alchemilla xanthochlora;Sesleria caerulea;Hypocrea;Parnassia palustris;Globularia cordifolia;Trifolium thalii;Alchemilla glabra;Plantago atrata;Briza media;Rumex alpinus;Clinopodium vulgare;Carex panicea;Hieracium pilosella;Cynosurus cristatus;Plantago lanceolata;Petasites paradoxus;Veronica alpina;Bartsia alpina;Soil fungal community;Potentilla crantzii;Chaerophyllum aureum;Claroideoglomus;Nardus stricta;Tremella;Galium album;Leontodon hispidus;Paecilomyces;Microdochium;Oxytropis jacquinii;phylogenetic diversity;Salix reticulata;Neonectria;Heracleum sphondylium;Pseudeurotium;Pseudonectria;Mrakia;Galium pumilum;Linaria alpina;Agrostis stolonifera;Carum carvi;Galium anisophyllon;Potentilla aurea;Veronica aphylla;Adenostyles alliariae;Vaccinium vitisidaea;Crepis aurea;Hygrocybe;Hieracium bifidum;alpine grassland;Panaeolus;454 pyrosequencing;Laserpitium latifolium
DOI:
doi:10.5061/dryad.88fm3
摘要:
to global). Here, we investigated the richness of taxa of soil fungi and their phylogenetic diversity across a wide range of grassland types along a 2800

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