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Data from: Responses of four submerged macrophytes to freshwater snail density (Radix swinhoei) under clear-water conditions: a mesocosm study
负责人:
关键词:
DOI:
doi:10.5061/dryad.j6q573n9z
摘要:
wth of submerged macrophytes by removing epiphyton from the surface of aquatic plants and by grazing directly on macrophyte organs. Thus, we conducted a long-term (11-month
Data from: Submerged macrophytes mitigate direct and indirect insecticide effects in freshwater communities
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关键词:
Ecotoxicology Insecticide mitigation Pesticides Phytoremediation Submerged aquatic vegetation
DOI:
doi:10.5061/dryad.vt87n
摘要:
, malathion had no effect on any taxa. We also discovered novel effects of macrophytes on the benthic food web. In the two highest macrophyte treatments
Data from: Functional traits for carbon access in macrophytes
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关键词:
Rhodophyta;Aquatic plant ecology;Chlorophyta;macrophyte;inorganic carbon acquisition;Seaweed;phylogeny;cosmopolitan family-level phylogenetic analysis;Ochrophyta;ancestral state reconstruction;carbon concentrating mechanism;Phaeophyceae
DOI:
doi:10.5061/dryad.6tq74
摘要:
ms, only 1% of dissolved inorganic carbon in seawater exists as CO2. Thus the majority of marine macrophytes not only passively access CO2 for photosynthesis, but also actively transport CO2
Data from: Overwintering tropical herbivores accelerate detritus production on temperate reefs
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关键词:
climate change;tropicalization;seasonality;Seaweed;Herbivory;detritus
DOI:
doi:10.5061/dryad.tx95x69sg
摘要:
nce of tropical herbivores in temperate reefs are lacking. We assessed the seasonal variation in abundances, macrophyte consumption, feeding modes and defecation rates
Data from: A comparative analysis reveals little evidence for niche conservatism in aquatic macrophytes among four areas on two continents
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关键词:
Vascular aquatic plants;aquatic macrophytes
DOI:
doi:10.5061/dryad.4ff04
摘要:
to ecological variables primarily take place. We investigated the extent to which niches of aquatic macrophytes are conserved among four study regions
Data from: Land use alters trophic redundancy and resource flow through stream food webs
负责人:
Price, Elliott L.
关键词:
Bottom-up control Diet estimates Energy Flow Stable isotope analysis Trophic redundancy Urban streams
DOI:
doi:10.5061/dryad.6g24f6k
摘要:
water discharge and higher light availability at urban sites likely promoted the contribution of aquatic macrophytes to diets of primary consumers
Data from: Microbial ‘gardening’ by a seaweed holobiont: surface metabolites attract protective and deter pathogenic epibacterial settlement
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关键词:
macrophyte;bleaching;holobiont;Gardening;plant-microbe interactions;Chemical defence;Seaweeds;invasive;Agarophyton vermiculophyllum
DOI:
doi:10.5061/dryad.52j8p1r
摘要:
for aquatic macrophytes. 2. Here we demonstrate that our model invasive seaweed holobiont Agarophyton vermiculophyllum possesses beneficial microbiota on its surface tha
Data from: Impact of hydromorphological pressures on the macrophytes bioindicators of the ecological water quality in Mediterranean rivers
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关键词:
Corymbia citriodora;Euphorbia sp;Carthamus caeruleus;Silybum marianum;Tamarix canariensis;Ceratophyllum sp;Verbena sp;Lythrum junceum;Anagallis arvensis;Cynodon dactylon;Scolymus hispanicus;Cirsium echinatum;bioindicators;Cuscuta pentagona;Mentha pulegium;Juncus acutus;Pistacia lentiscus;Scorpiurus sp;Centaurea calcitrapa;Juncus rigidus;Asteriscus aquaticus;Heliotropium supinum;Datura sp;Visnaga daucoides;Solanum dulcamara;Xanthium spinosum;Pulicaria arabica;Eryngium campestre;Piptatherum miliaceum;Chenopodium sp;Hydrological Basin of Sebou (HBS);Eryngium glaciale;Adonis aestivalis;Sonchus maritimus;Marrubium vulgare;Rubus ulmifolius;Carduus pycnocephalus;Crataegus azarolus;Lythrum acutangulum;Lavandula multifida;Trifolium dubium;Bituminaria bituminosa;Turgenia latifolia;Rumex crispus;Aster squamatus;Scirpus sp;Populus nigra;Potentilla reptans;Fraxinus excelsior;Trifolium sp;Ranunculus bulbosus;Glebionis coronaria;Epilobium hirsutum;Sonchus asper;Mentha rotundifolia;Tamarix aphylla;Stachyurus salicifolius;Crataegus sp;Cyperus longus;Lolium multiflorum;Nerium oleander;Pennisetum setaceum;Scrophularia auriculata;Cynoglossum creticum;Arundo donax;Onopordum sp;Verbascum blattaria;Juniperus sp;Xanthium strumarium;Berula erecta;Trachelium caeruleum;Stachys ocymastrum;Tamarix boveana;Carlina vulgaris;Potamogeton nodosus;Ricinus communis;Elodea sp;Verbena officinalis;Cichorium intybus;Vitex agnus-castus;Tamarix africana;Anacyclus clavatus;Bromus tectorum;Ononis spinosa;Checklist;Heterotheca subaxillaris;Dittrichia viscosa;Erigeron canadensis;Phragmites australis;Persicaria maculosa;Peganum harmala;Samolus valerandi;Catananche caerulea;Pallenis spinosa;Reseda luteola;Ludwigia palustris;Ziziphus lotus;Mantisalca sp;Crataegus monogyna;Ammi majus;Festuca arundinacea;Cladanthus arabicus;Cynodon sp;Plantago coronopus;Potamogeton sp;Filago pyramidata;Portulaca oleracea;Onopordum macracanthum;Carduus tenuiflorus;Porophyllum ruderale;Polypogon viridis;Hibiscus syriacus;Mentha longifolia;Teucrium spinosum;Echium plantagineum;Ecological Water Quality;Plantago lagopus;Erigeron sp;Lolium rigidum;Veronica beccabunga;Paronychia argentea;Geranium dissectum;Polygonum aviculare;Cyperus rotundus;Vachellia karroo;Paspalum sp;Scolymus maculatus;Trifolium fragiferum;Rumex palustris;Isatis tinctoria;Adiantum capillus-veneris;Polypogon monspeliensis;Potamogeton pectinatus;Polycarpon tetraphyllum;Lemna gibba;Calendula officinalis;Zannichellia palustris;Verbascum sinuatum;Convolvulus arvensis;Sonchus sp;Alopecurus pratensis;Malva sp;Trifolium stellatum;Rapistrum rugosum;Lolium sp;Plantago major;Euphorbia cossoniana;Thymelaea virgata;Ficus carica;Chenopodium album;Malva parviflora;Anacyclus homogamos;Tamarix gallica;Verbascum sp;Vachellia gummifera;Apium repens;Equisetum ramosissimum;Helosciadium repens;Raphanus raphanistrum;Amaranthus retroflexus;Eryngium sp;Panicum repens;Helosciadium nodiflorum;Hordeum marinum;Asclepias curassavica;Glyceria notata;macrophytes;Morus sp;Pulicaria sp;Chara sp;Aegilops geniculata;Lemna sp;Persicaria lapathifolia;Mentha suaveolens;Foeniculum vulgare;Solanum lycopersicum;Heliotropium europaeum;Centaurium pulchellum;Pistia stratiotes;Papaver rhoeas;Typha angustifolia;Erodium cicutarium;Quercus sp;Celtis australis;Hygrohypnum luridum;Sonchus aquatilis;Campanula sp;Datura stramonium;Herniaria cinerea;Rumex conglomeratus;Polygonum sp;Torilis nodosa;Verbascum thapsus;Campanula mairei;Hypericum pubescens;aquatic plants;Rumex sp;Amaranthus sp;Mentha aquatica;Agrostis stolonifera;Bunium alpinum;Hieracium racemosum;Hirschfeldia incana;Antirrhinum sp;Dittrichia graveolens;Trifolium campestre;Chrozophora tinctoria;Lepidium draba;Paspalum vaginatum;Anchusa azurea;Erigeron bonariensis;Nasturtium officinale;Glinus lotoides;Centaurea aspera
DOI:
doi:10.5061/dryad.q727ff4
摘要:
ity of aquatic plants. In Mediterranean rivers (France, Spain, and Portugal), the development of some macrophytes indices like l’Indice Biologique Macrophytes Rivières
Data from: Combined effects of local habitat, anthropogenic stress, and dispersal on stream ecosystems: a mesocosm experiment
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关键词:
fine sediments;Algal accrual;mosses;ecosystem function;community structure;macrophytes;mesocosm experiment;leaf decomposition;Benthic macroinvertebrates;restoration
DOI:
doi:10.5061/dryad.rr8t2j5
摘要:
of benthic habitats. Aquatic macrophytes enhance habitat heterogeneity and mediate important ecosystem functions, being thus a key component of habitat structure in ma
Data from: Immanent conditions determine imminent collapses: nutrient regimes define the resilience of macroalgal communities
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关键词:
Alternative stable states;Catastrophic shifts;Macroalgal forests;Sea urchin barrens;Buffer capacity;tipping points;Herbivory;regime shifts;compensatory feeding
DOI:
doi:10.5061/dryad.7k300
摘要:
, and mathematical models to examine how differences in nutrient regimes mediate the capacity of macrophyte communities to sustain sea urchin grazing. In relatively nutrient

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