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Data from: Habitat heterogeneity induces rapid changes in the feeding behaviour of generalist arthropod predators
负责人:
关键词:
habitat microstructure;trophic interactions;habitat complexity;Food webs;molecular diet analysis;specialization index
DOI:
doi:10.5061/dryad.n4120
摘要:
1. The “habitat heterogeneity hypothesis” predicts positive effects of structural complexity on species coexistence. Increasing habitat hetero
Data from: Eelgrass (Zostera marina) food web structure in different environmental settings
负责人:
关键词:
Diet Analysis;Pomatoschistus minutus;Littorina saxatilis;Gastropoda;Turritella communis;Mya spp.;Oligochaeta;Idotea spp.;Zoarces viviparus;Ericthonius difformis;Platynereis dumerilii;Chaetomorpha;Bivalvia;Syngnathus rostellatus;Mya arenaria;Ulva lactuca;Nereis spp.;Nematoda;C:N ratio;Aurelia aurita;stable isotopes;Ciona intestinalis;Crangon crangon;Polychaeta;infauna;Rissoa sp.;Cerastoderma edule;Ectocarpus;Palaemon adspersus;Polynoidae sp.;Gasterosterus aculeatus;Mysinae spp.;food web structure;Idotea sp.;Pygospio elegans;Ceramium;Hydrobia spp.;Haliclystus auricula;eelgrass;stomach content;Littorina littorea;Palaemon spp.;Chironomidae;Sagartiogeton viduatus;Palaemon elegans;seagrass ecosystems;Carcinus maenas;Erichthonius difformis;Monocorophium insidiosum;Cerestoderma edule;Mytilus edulis;Gobius niger;Pungitius pungitius;Zostera marina;Crustacea;Spinachia spinachia;Polysiphonia;Pholis gunnellus;Belone belone;Macoma balthica;Fish;seagrass;Bittium reticulatum;Pholis gunnelus;Cladophora;Corophium volutator;Nerophis ophidion;Turitella communis;epifauna;Rissoidae;biogeochemistry;Hydrobia;Taurulus bubalis;Syngnathus typhle;Gammarus locusta;Microdeutopus gryllotalpa;Littorina obtusata;Asterias rubens;Gracillaria sp.;Gasterosteus aculeatus
DOI:
doi:10.5061/dryad.4jr00
摘要:
This study compares the structure of eelgrass (Zostera marina L.) meadows and associated food webs in two eelgrass habitats in Denmark, differing
Data from: Linking biological soil crust attributes to the multifunctionality of vegetated patches and interspaces in a semiarid shrubland
负责人:
关键词:
soil nutrients;Spatial distribution;soil moisture;soil aggregate stability;BSC floristic composition;BSC functional structure
DOI:
doi:10.5061/dryad.sv4md
摘要:
1.Understanding the importance of biotic community structure on ecosystem functioning, and whether communities inhabiting different microhabitat
Data from: Effects of altitude, land use and microsites on the early-life performance of a high mountain tree: insights from an in situ sowing
负责人:
关键词:
abiotic factors;safe sites;Recruitment;microsites;biotic interactions;seed regenearion
DOI:
doi:10.5061/dryad.7c2g5rn
摘要:
subplots at the microsite level (associated with vegetative and micro-topographic structures), to livestock exclosure and enclosure plots of several hecta
Data from: The population structure and recent colonization history of Oregon threespine stickleback determined using restriction-site associated DNA
负责人:
关键词:
Genomics\/Proteomics;phylogeography;Fish;GBS;RAD-seq;Gasterosteus aculeatus;Adaptation;Population Genetics - Empirical
DOI:
doi:10.5061/dryad.62hb0
摘要:
differentiation when oceanic fish have invaded freshwater habitats. While significant evolutionary genetic research has been performed using stickleback from geographic regions
Data from: Age and growth of stocked juvenile Shoal Bass in a tailwater: environmental variation and accuracy of daily age estimates
负责人:
关键词:
otolith microstructure;Micropterus cataractae;Holocene;daily age accuracy
DOI:
doi:10.5061/dryad.7r5t6p5
摘要:
Otolith microanalysis is often used to assess population age structure and growth of fishes during thei
Data from: Structural complexity of hunting habitat and territoriality increase the reversed sexual size dimorphism in diurnal raptors
负责人:
关键词:
Accipiter bicolor;Ictinia mississippiensis;Falco subbuteo;Harpia harpyja;Rostrhamus sociabilis;Neophron percnopterus;Aquila heliaca;Body Size;Accipiter cooperii;Aquila clanga;Haliaeetus albicilla;Buteo platypterus;Buteo albonotatus;Ibycter americanus;life-history traits;Buteogallus anthracinus;Buteo lagopus;Falco columbarius;Milvus migrans;Accipiter nisus;Falco pelegrinoides;Milvago chimango;Aquila fasciatus;Circus cinereus;Aquila adalberti;Buteo magnirostris;Buteo nitidus;Falco vespertinus;Aegypius monachus;Falco sparverius;Falco naumanni;Coragyps atratus;Gypaetus barbatus;Falco rusticolus;Aquila chrysaetos;Buteo lineatus;Cathartes aura;Elanus leucurus;sexual size dimorphism (SSD);Buteo swainsoni;Hieraaetus pennatus;Falco deiroleucus;Buteo buteo;Herpetotheres cachinnans;Circaetus gallicus;Harpagus bidentatus;Buteo regalis;Milvus milvus;Falco mexicanus;Elanus caeruleus;Circus aeruginosus;Buteo rufinus;Falco rufigularis;Falco tinnunculus;Parabuteo unicinctus;Pandion haliaetus;Buteo solitarius;Gyps fulvus;Falco eleonorae;Haliaeetus leucocephalus;Spizaetus ornatus;Buteo ridgwayi;Aquila nipalensis;Pernis apivorus;Micrastur semitorquatus;Accipiter gentilis;Circus cyaneus;Falco peregrinus;Falco cherrug;Ictinia plumbea;Phalcoboenus australis;Accipiter striatus;Buteo galapagoensis;Falco biarmicus;Buteo jamaicensis;Elanoides forficatus;Caracara plancus;Aquila pomarina
DOI:
doi:10.5061/dryad.0n226hs
摘要:
habitat structure, territoriality or territory size. We do so using data on diurnal raptors from the New World and the Western Palearctic – i.e. Catha
Data from: Habitat formation prevails over predation in influencing fouling communities
负责人:
关键词:
Amphiglena mediterranea;Molgula;Salvatoria clavata;Leucothoe spinicarpa;Stylochoplana maculata;Polydorinae;Oerstedia dorsalis;Pisidia longicornis;Eualus cranchii;Lepidonotus squamatus;Galathea squamifera;Bivalvia;Orchomene humilis;Syllis armillaris;Bodotria;Copepoda;Gammarella fucicola;Tricellaria inopinata;Microdeutopus chelifer;Nicolea zostericola;Zeuxo;Botryllus schlosseri;Stylostomum ellipse;Cancer pagurus;Ascidiella aspersa;Cirratulidae;Watersipora subatra;Pectinidae;Ostracoda;Aoroides longimerus;Endeis spinosa;Anomia ephippium;Branchiomma bombyx;Musculus subpictus;Nicolea venustula;Chironomidae;Apocorophium acutum;Spio;Sabellidae;Jassa marmorata;urban ecology;Cycloporus papillosus;Doto;Hiatella arctica;Ampharetidae;Aonides oxycephala;Syllis;Ampithoe ramondi;Necora puber;Mysta picta;Botrylloides;Pholoe inornata;Spirorbis;Gammaropsis maculata;Terebellomorpha;Jassa falcata;Anoplodactylus petiolatus;Heteranomia squamula;Syllidia armata;Leodice;Crepidula fornicata;Maera grossimana;Clavelina lepadiformis;Mytilus;Echinogammarus stoerensis;Marinas;Laomedea flexuosa;Austrominius modestus;Polycirrus;Facelina;Psamathe fusca;Parvicardium pinnulatum;Dexamine spinosa;Aequipecten opercularis;Siriella clausii;Ophryotrocha;Janolus cristatus;Harmothoe extenuata;Pionosyllis;Microdeutopus gryllotalpa;Myrianida;Pterocirrus macroceros;Rissoa parva;Veneridae;Aora spinicornis;None;Gnathia maxillaris;Crisilla semistriata;Monocorophium acherusicum;Thecacera pennigera;Calliopidae;Thyone roscovita;Bugulina fulva;Marine invertebrates;Cancridae;Platynereis dumerilii;Psammechinus miliaris;Syllis gracilis;Ericthonius punctatus;Websterinereis glauca;Nematoda;Palaemon serratus;Goniodoris castanea;Retusidae;facilitation;Spionidae;Syllis hyalina;Lamellaria latens;Phtisica marina;Ciona intestinalis;Pista cristata;Cyanophthalma cordiceps;Nannonyx goesi;Corella eumyota;Perinereis cultrifera;Amblyosyllis Formosa;Lamellaria perspicua;non-indigenous species;Prostheceraeus vittatus;Eupolymnia nesidensis;Microprotopus longimanus;biotic resistance;Talochlamys pusio;Pilumnus hirtellus;Pherusa;Polititapes rhomboides;Ciona robusta;Kirchenpaueria pinnata;Gobiusculus flavescens;Stenothoe marina;Flabellina;Syllis columbretensis;Exogone;Nemertea;Eualus occultus;Hippolytidae;Aplidium;Lysidice ninetta;Harmothoe spinifera;Palaemon elegans;Lysianassa ceratina;Liocarcinus navigator;Harmothoe impar;Microdeutopus versiculatus;Stenothoe gallensis;Eulalia;Lumbrineris;Styela clava;Aora gracilis;Hippolyte varians;Alvania testae;Caprella acanthifera;Microdeutopus anomalus;Subadyte pellucida;Polynoidae;Janira maculosa;Janolus;Hesperibalanus fallax;Cymodoce;Asterocarpa humilis;Amathia pruvoti;Ctenodrilidae;Fabriciidae;Bugula neritina;Gammarus locusta;Sycon;Stenothoe monoculoides;predation;Diplosoma;Caprella equilibra;Alentia gelatinosa
DOI:
doi:10.5061/dryad.80780
摘要:
Coastal human-made structures, such as marinas and harbours, are expanding worldwide. Species assemblages described from these artificial habitats ar

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