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Data from: Evidence for arrested succession in a liana?infested Amazonian forest
负责人:
关键词:
tropical ecology;liana;Arrested succesion;Holocene
DOI:
doi:10.5061/dryad.1pc19
摘要:
1. Empirical evidence and modelling both suggest that global changes may lead to an increased dominance of lianas, and thus to an increased
Data from: Forest extent and deforestation in tropical Africa since 1900
负责人:
关键词:
DOI:
doi:10.5061/dryad.r87p0
摘要:
Accurate estimates of historical forest extent and associated deforestation rates are crucial for quantifying tropical carbon cycles and formulating
Data from: Nest boxes increase reproductive output for Tree Swallows in a forest grassland matrix in central British Columbia
负责人:
关键词:
life-history strategies;nest site type;productivity;tree swallows;Tachycineta bicolor;cavity-nesting birds;hole nesting birds;reproduction;nest-boxes
DOI:
doi:10.5061/dryad.g85t15k
摘要:
Secondary cavity-nesting birds depend on tree cavities for nesting and roosting, but many studies of these birds are conducted using nest boxes
Data from: Intensive forest harvesting increases susceptibility of northern forest soils to carbon, nitrogen and phosphorus loss
负责人:
关键词:
Harvest intensity;Clearcutting;Compound disturbance;phosphorus;forest harvesting;nitrogen;Rotation length;carbon;1970s to 2016;Whole-tree harvesting;meta-analysis
DOI:
doi:10.5061/dryad.dd602
摘要:
1. Understanding the impact of forest harvesting is critical to sustainable forest management, yet there remains much uncertainty regardin
Data from: The presence of kleptoparasitic fledglings is associated with a reduced breeding success in the host family in the barn owl
负责人:
关键词:
DOI:
doi:10.5061/dryad.t701851
摘要:
Fledgling birds sometimes abandon their own nest and move to neighboring nests where they are fed by host parents. This behaviour, referred
Data from: Harvesting effects on wild bee communities in bioenergy grasslands depend on nesting guild
负责人:
Spiesman, Brian
关键词:
DOI:
doi:10.5061/dryad.s7d4g4t
摘要:
Conversion of annual crops to native perennial grasslands for bioenergy production may help conserve wild bees by enhancing nest and food resources
Data from: Ecological restoration success is higher for natural regeneration than for active restoration in tropical forests
负责人:
关键词:
Active restoration;tropical forests;restoration;natural regeneration;biodiversity;Vegetation structure
DOI:
doi:10.5061/dryad.5428h
摘要:
Is active restoration the best approach to achieve ecological restoration success (the return to a reference condition, that is, old-growth forest
Data from: Dissecting biodiversity in a global hotspot: uneven dynamics of immigration and diversification within the Cape Floristic Region of South Africa
负责人:
关键词:
Thamnochortus stokoei;Thamnochortus paniculatus;Paleocene;Restio bifarius;Restio sporadicus;Thamnochortus gracilis;Askidiosperma insigne;Anthochortus ecklonii;Soroveta ambigua;Thamnochortus obtusus aff;Restio paludicola;Restio decipiens;Restio obscurus;Restio blinkbergensis;Cannomois arenicola;Willdenowia teres;Elegia fistulosa;Restio eleocharis;Thamnochortus serpens;Askidiosperma longiflorum;Elegia coleura;Elegia extensa;Cannomois virgata;Ceratocaryum xerophilum;Holocene;Elegia cernua;Restio calcicola;Willdenowia glomerata;Thamnochortus lucens;Ceratocaryum decipiens;Elegia thyrsoidea;Restio gossypinus var;Rhodocoma fruticosa;Restio bifidus;Restio virgeus;Elegia spathacea;Restio nanus;Restio constipatus aff;Restio venustulus;Restio corneolus;Restio brachiatus aff;Elegia hutchinsonii;Nevillea singularis;Elegia ebracteata;Ceratocaryum argenteum;Restio durus;Thamnochortus pellucidus;Restio arcuatus;Restio rivulus;Restio dodii var purpureus;Restio verrucosus;Elegia decipiens var;Elegia stokoei;immigration \u2013 diversification dynamics;Restio miser;Hypodiscus montanus;Restio rudolfii;Askidiosperma rugosum;Elegia microcarpa var;Restio distichus;Restio zwartbergensis;Thamnochortus pluristachyus;Elegia prominens;Restio saroclados;Thamnochortus insignis;metapopulation;Restio secundus;Restio echinatus;Willdenowia affinis;Restio capensis;Restio pulvinatus;Ceratocaryum pulchrum;Restio triticeus aff;Restio pulcher;island biogeography theory;Hypodiscus albo-aristatus;Hypodiscus sp nov;Cannomois aristata;Restio singularis;Thamnochortus punctatus;Elegia aggregata;Ceratocaryum fimbriatum;Restio degenerans;Restio burchellii;Restio capillaris;Thamnochortus pulcher;Anthochortus insignis;Elegia marlothii;Restio sejunctus;Thamnochortus obtusus;Restio coactilis;Restio wittebergensis;Restio colliculospermus;Restio stokoei;Restio tenuispicatus;Staberoha multispicula;Willdenowia rugosa;Miocene;Askidiosperma delicatulum;Rhodocoma capensis;Elegia dregeana;Platycaulos subcompressus;Restio implicatus;Willdenowia pilleata;Willdenowia bolusii;Hypodiscus procurrens;Cannomois sp;Restio egregius;Elegia acockii;Thamnochortus karooica;Restio cedarbergensis;Restio inconspicuus;Restio versatilis;Mastersiella digitata;Restio sp;Staberoha cernua;Restio nuwebergensis;Elegia microcarpa;Restio triticeus;Restio rupicola;Restio distylus;Rhodocoma gracilis;Staberoha banksii;Elegia thyrsifera;Elegia intermedia;Restio paludosus;Restionaceae;Hypodiscus willdenowia;Restio laniger;Cannomois anfracta;Restio longiaristatus;Restio affinis;Restio barbatus;Restio perplexus;Staberoha remota;Eocene;Restio asperus;Restio taylori;Restio adpressus;Staberoha ornata;Cannomois spicata;Restio paniculatus;Nevillea vlokii;Restio leptoclados;Elegia fenestrata;Restio bifurcus;Restio constipatus;Elegia fastigiata;Restio gossypinus aff;Restio quinquefarius;Willdenowia humilis;Thamnochortus fraternus;Restio sabulosus;Elegia squamosa;Elegia sp;Elegia grandispicata;Thamnochortus nutans;Restio pillansii;Restio pygmaeus;Elegia neesii;Hypodiscus rugosus;Restio pumilus;Restio saxatilis;Restio alticola;Hypodiscus squamosus;Restio anomalus;Restio villosus;Restio dodii var purpurascens;Elegia decipiens;Dispersal;Restio albotuberculatus;Restio scaber;Platycaulos compressus;Elegia persistens;Restio festuciformis;Platycaulos callistachyus;Elegia muirii;Restio confusus;Cannomois grandis;Restio debilis;Elegia namaquense;Restio brachiatus;Restio marlothii;Restio dodii var dodii;Restio aridus;Willdenowia sulcata;Staberoha stokoei;Thamnochortus fruticosus;Hypodiscus laevigatus;Thamnochortus rigidus;Restio luxurians;Restio subverticellatus;Restio nudiflorus;Restio diffusus;Restio acockii;Restio wallichii;Thamnochortus levynsiae;Restio papillosus;Hypodiscus rigidus;Restio elsieae;Restio occultus;Thamnochortus arenarius;Elegia hookeriana;Restio femineus;Staberoha distachyos;Hypodiscus alternans;Restio gossypinus;Platycaulos major;Restio rigoratus;Restio unispicatus;Restio fragilis;Thamnochortus platypteris;Anthochortus capensis;Rhodocoma vleibergensis;Rhodocoma gigantea;Restio aureolus;Thamnochortus kammanassie;Askidiosperma andreaeanum;Elegia asperiflora;Staberoha vaginata;Restio rottboellioides;Platycaulos depauperatus;Ceratocaryum fistulosum;Restio vallis-simius;Thamnochortus bachmannii;Thamnochortus spicigerus;Elegia amoena;semi-permeable barriers;Restio cincinnatus;Anthochortus graminifolius;Elegia deustum;Restio miser aff;Restio fraternus;Staberoha capensis;Elegia tectorum;Restio sieberi;Thamnochortus glaber;Restio monanthos;Cannomois parviflora;Restio monostylis;Elegia equisetacea;Restio subtilis;Restio tetragonus;Restio fusiformis;Restio insignis;Restio stereocaulis;Elegia grandis;Restio hyalinus;Willdenowia purpurea;Askidiosperma esterhuyseniae;Restio andreaeanus;Cannomois congesta;Ceratocaryum sp;Willdenowia sp;Restio ocreatus;Elegia elephantina;Restio bolusii;Thamnochortus sporadicus;Restio rigidus;Elegia atratiflora;Restio duthieae;Restio strobilifer;Platycaulos acutus;Hypodiscus striatus;Restio harveyi;Restio filiformis;Restio distans;Thamnochortus schlechteri;Ceratocaryum caespitosum;Restio brunneus;Restio distractus;Elegia racemosa;Restio karooicus;Restio rigidus aff;Mastersiella purpurea;Staberoha sp;Restio setiger;Restio uniflorus;Restio clandestinus;Restio degenerans aff;Elegia altigena;Willdenowia arescens;Mastersiella sp;Ceratocaryum persistens;Restio quadratus;Restio vilis;Cannomois nitida;Thamnochortus guthrieae;Restio pedicellatus;Thamnochortus muirii;Restio montanus;Restio distylis;Elegia fucata;Restio hystrix;Restio perseverans;Elegia mucronata;Restio tenuissimus;Restio helenae;Restio fuscidulus;Cannomois primosii;Restio inveteratus;Restio patens;Oligocene;Hypodiscus aristatus;Elegia recta;Restio impolitus;Restio rarus;Restio caespitosus;Thamnochortus amoena;Elegia vaginulata;Restio nubigenus;Askidiosperma alticolum;Restio strictus;Elegia galpinii;Restio tuberculatus;Thamnochortus acuminatus;Platycaulos anceps;Restio triflora;Thamnochortus sp;Restio dispar;Restio similis;Restio scaberulus;Restio leptostachyus;Nevillea obtusissima;hotspot;Askidiosperma albo-aristatum;Thamnochortus ellipticus;Elegia filacea;Restio gaudichaudianus;Restio ramosissimus;Thamnochortus dumosus;Cannomois scirpoides;Restio ejuncidus;Staberoha aemula;Restio muirii;Restio vimineus;Cannomois schlechteri;Anthochortus sp;Elegia cuspidata;Restio curviramis;Hypodiscus synchroolepis;Restio levynsiae;Elegia caespitosa;Restio ingens;Elegia capensis;Thamnochortus pubescens;Rhodocoma foliosa;Restio micans;Hypodiscus argenteus;Hypodiscus sulcatus;Restio curvibracteatus;Restio purpurascens;Askidiosperma paniculatum;Cannomois robusta;Restio nodosus;Thamnochortus erectus;Mastersiella spathulata;Thamnochortus rigidus aff;Elegia rigida;Restio communis;Restio venustulus aff;Elegia stokoei aff;Anthochortus laxiflorus;Restio macer;Elegia esterhuyseniae;Hydrophilus rattrayi;Anthochortus singularis;Askidiosperma capitatum;Rhodocoma arida;Platycaulos cascadensis;Thamnochortus cinereus;Restio parthenocarpos;Restio multiflorus;Restio peculiaris;Restio esterhuyseniae;Willdenowia stokoei;Restio praeacutus;Hypodiscus neesii;Elegia verreauxii;Restio pratensis;Elegia nuda;Elegia juncea;Elegia macrocarpa;Restio parvispiculus;Elegia stipularis;Restio pachystachyus;Anthochortus crinalis;Willdenowia incurvata;Askidiosperma chartaceum;Askidiosperma nitidum;Thamnochortus papyraceus;Restio papyraceus;Rhodocoma alpina
DOI:
doi:10.5061/dryad.1cs77qn
摘要:
. We test whether this applies to the fragmented Cape fynbos vegetation. Location: Southern Africa, Cape Floristic Region (CFR) Taxon: Angiosperms
Data from: A cross-continental comparison of plant and beetle responses to retention of forest patches during timber harvest
负责人:
关键词:
edge effects;ground-active beetles;conservation;biodiversity;vascular plants;plants;lifeboating;logging;beetles;Retention forestry;aggregated retention;forest influence
DOI:
doi:10.5061/dryad.md045
摘要:
Timber harvest can adversely affect forest biota. Recent research and application suggest that retention of mature forest elements (‘retention

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