%D8%B8%D9%84%D8%A9%D0%9F%D0%BE%D0%BB%D0%B0%D0%B3_%D0%BB%D0%B5%D1%81%D1%83%E0%A6%9A%E0%A6%BE%E0%A6%81%E0%A6%A6%E0%A7%8B%E0%A6%AF%E0%A6%BC%E0%A6%BE_(%E0%A6%9C%E0%A7%80%E0%A6%AC%E0%A6%AC%E0%A6%BF%E0%A6%9C%E0%A7%8D%E0%A6%9E%E0%A6%BE%E0%A6%A8)Cobricel_arboriCategory:Tree_canopiesStromov%C3%A9_patroKrone_(plantedel)Schirm_(Forstwirtschaft)Canopy_(biology)KanopeoDosel_arb%C3%B3reo%D8%B3%D8%A7%DB%8C%D8%A8%D8%A7%D9%86_%D8%AC%D9%86%DA%AF%D9%84Canop%C3%A9eCeannbhratCanopia%E6%9E%97%E5%86%A0%EC%9E%84%EA%B4%80%EC%B8%B5Mi%C5%A1ko_skliautasBoomlaagCanop%C3%A8aDossel_florestalFoliaj%D0%9F%D0%BE%D0%BB%D0%BE%D0%B3_%D0%BB%D0%B5%D1%81%D0%B0%E0%B6%8B%E0%B6%A9%E0%B7%94_%E0%B7%80%E0%B7%92%E0%B6%BA%E0%B6%B1_(%E0%B7%80%E0%B6%B1%E0%B7%8F%E0%B6%B1%E0%B7%8A%E0%B6%AD%E0%B6%BB)Kapal%C4%B1l%C4%B1k%D0%9D%D0%B0%D0%BC%D0%B5%D1%82_%D0%BB%D1%96%D1%81%D1%83T%C3%A1n_(sinh_th%C3%A1i)Q1134228%E6%9E%97%E5%86%A0
about
Oil road effects on the anuran community of a high canopy tank bromeliad (Aechmea zebrina) in the upper Amazon basin, EcuadorA new genus and species of myrmecophilous aphodiine beetle (Coleoptera, Scarabaeidae) inhabiting the myrmecophytic epiphyte Platycerium sp. (Polypodiaceae) in the Bornean rainforest canopyWhat have we learned from 15 years of free-air CO2 enrichment (FACE)? A meta-analytic review of the responses of photosynthesis, canopy properties and plant production to rising CO2Depreissia decipiens, an enigmatic canopy spider from Borneo revisited (Araneae, Salticidae), with remarks on the distribution and diversity of canopy spiders in Sabah, BorneoTardigrades of the Tree Canopy: Milnesium swansoni sp. nov. (Eutardigrada: Apochela: Milnesiidae) a new species from Kansas, U.S.A.Syzygium snowianum (Myrtaceae) a new canopy species from the Southern Escarpment of Papua New GuineaResponse of recruitment to light availability across a tropical lowland rain forest communityDevelopment of a canopy air curtain to reduce roof bolters’ dust exposureEntomological studies from a high steel tower in Zika Forest, Uganda. Part II. The biting activity of mosquitoes above the forest canopy in the hour after sunsetA new canopy-dwelling species of Dendrelaphis (Serpentes: Colubridae) from Sinharaja, World Heritage Site, Sri LankaThe 4-Dimensional Plant: Effects of Wind-Induced Canopy Movement on Light Fluctuations and Photosynthesis.Arachnid aloft: directed aerial descent in neotropical canopy spidersInvagination of Ectodermal Placodes Is Driven by Cell Intercalation-Mediated Contraction of the Suprabasal Tissue CanopyGenetics-based dynamic systems model of canopy photosynthesis: the key to improve light and resource use efficiencies for cropsAtmospheric deposition and canopy exchange processes in heathland ecosystemsDirected aerial descent in canopy antsChemical and physical environmental conditions underneath mat- and canopy-forming macroalgae, and their effects on understorey coralsInfluence of vegetation structure on lidar-derived canopy height and fractional cover in forested riparian buffers during leaf-off and leaf-on conditionsCanopy-forming seaweeds in urchin-dominated systems in eastern Canada: structuring forces or simple prey for keystone grazers?Frugivory in Canopy Plants in a Western Amazonian Forest: Dispersal Systems, Phylogenetic Ensembles and Keystone PlantsBone Canopies in Pediatric Renal OsteodystrophyTrait coordination, mechanical behaviour and growth form plasticity of Amborella trichopoda under variation in canopy opennessCircadian rhythms have significant effects on leaf-to-canopy scale gas exchange under field conditionsDoes canopy nitrogen uptake enhance carbon sequestration by trees?An individual-based forest model links canopy dynamics and shade tolerances along a soil moisture gradientCAN Canopy Addition of Nitrogen Better Illustrate the Effect of Atmospheric Nitrogen Deposition on Forest Ecosystem?Potential for bias and low precision in molecular divergence time estimation of the Canopy of Life: an example from aquatic bird familiesDo Small Canopy Gaps Created by Japanese Black Bears Facilitate Fruiting of Fleshy-Fruited Plants?Canopy flow analysis reveals the advantage of size in the oldest communities of multicellular eukaryotesGas valves, forests and global change: a commentary on Jarvis (1976) 'The interpretation of the variations in leaf water potential and stomatal conductance found in canopies in the field'Unexpected high diversity of galling insects in the Amazonian upper canopy: the savanna out there.Insects on flowers: The unexpectedly high biodiversity of flower-visiting beetles in a tropical rainforest canopyStable isotope canopy effects for sympatric monkeys at Tai Forest, Cote d'IvoireVariation in canopy duration in the perennial biofuel crop Miscanthus reveals complex associations with yieldEstimation of aboveground biomass in alpine forests: a semi-empirical approach considering canopy transparency derived from airborne LiDAR dataEvidence for a Cenozoic radiation of ferns in an angiosperm-dominated canopyAncient associations of aquatic beetles and tank bromeliads in the Neotropical forest canopyBundle sheath leakiness and light limitation during C4 leaf and canopy CO2 uptakeGeneralist Flowers and Phytophagous Beetles in Two Tropical Canopy Trees: Resources for MultitudesEmission of reactive terpene compounds from orange orchards and their removal by within-canopy processes
P921
Q21132355-F87F779D-5BA7-4525-A347-1B4C5F40C731Q21191457-0CCF7049-608C-4631-A8E5-A9DBD047642FQ22065657-18FD368C-58B3-45E9-BD03-06317F396432Q22221301-9576B395-A389-40D8-8015-7BA40738B2D9Q22582507-D7DF5B3D-E45E-4770-B096-BE8ECA2448DEQ23415143-90D7CD96-E895-4750-B331-CA31AEB4951DQ23900324-39b4c2a4-4340-52e4-1496-c6ce3a2093c7Q24823268-0FF0AD63-DD3E-443A-953C-46DA7F6FF8F7Q26689979-1587B0B0-C7A8-4C3F-86ED-C1E921DD9003Q27062329-2D26E973-CC18-4B69-B26D-B67914F8F4ACQ27306735-2E223998-4A0F-4A86-93B6-F48CECCC8541Q27340289-15306FB3-F026-4940-A66E-06B20E89E9BBQ27345013-902C793F-FCA7-4E71-A65E-5267074D4842Q28075951-1D70B913-FBBF-49C2-A570-2CE925D1A5BAQ28257101-510A090D-8DB0-4516-9640-871B9C9CD522Q28306791-95B39917-3754-4F30-9575-8FADA2DCBF09Q28475493-6FA80CC3-FB7F-4101-AAE1-5F023C4386C3Q28485869-D98F3106-880D-49B9-8831-F0E95016974DQ28539115-C9A67585-3169-43B7-ACE6-68062FFE22B8Q28550438-CACB24B2-A8F9-4381-9A8E-7590BD4388D1Q28551189-52FA0B66-7679-428B-B146-E275A76B4DFCQ28588989-B98E3ECA-D2E6-437A-87FD-49D568E3A7E9Q28597086-5FF2AD58-5D62-427B-ACA3-0B1B5E450080Q28601443-A091D6CE-00E7-42EF-A63F-40BDE5714053Q28602957-270C74D1-19E6-46C1-AA5B-8D430076C284Q28638260-0C860FE4-40DE-4E7F-B546-23FE1AC3D4E8Q28645627-075870E1-6D55-47BB-A73F-970F8B995B6CQ28646504-058F4712-8BB9-4075-A85D-375F1CEE9C67Q28647663-309F3C44-819B-4312-959B-3E9E21AB6951Q28652373-EB9A3A73-7815-4865-BAE4-303A48650668Q28652822-286D6D37-4E28-4651-8C03-2388777EA426Q28681228-792831D3-E850-4E8A-9962-DD1B4870CA8CQ28690305-4AAA9121-9EE9-4A58-825E-9F9ECFF92E62Q28703704-5548BEA4-7BC5-4898-BA78-77748B1C026AQ28732224-22DE793B-9B61-4E4C-B658-BA93ADE22A23Q28752296-E3E18E4F-BC5C-4E49-80B9-E74EBF370E28Q28754745-6D12794F-9815-4220-B7A9-46A9D0933732Q28756408-97B3CCC8-D9ED-446B-B807-9860B8CE8712Q28960381-4AEF1A58-E4F1-4AEE-A560-A610E54F84CAQ29012375-E32EAB4D-E1AC-4097-89E9-42FA556E9568
P921
description
aboveground portion of a plant community or crop
@en
étage supérieur d'une forêt
@fr
name
Canopia
@it
Canopèa
@oc
Ceannbhrat
@ga
Dosel arbóreo
@es
Foliaj
@ro
Kanopeo
@eo
Kapalılık
@tr
Krone
@da
Miško skliautas
@lt
Schirm
@de
type
label
Canopia
@it
Canopèa
@oc
Ceannbhrat
@ga
Dosel arbóreo
@es
Foliaj
@ro
Kanopeo
@eo
Kapalılık
@tr
Krone
@da
Miško skliautas
@lt
Schirm
@de
altLabel
Canopea
@es
Canopia
@es
Canopio
@es
Canópia
@pt
Copa
@pt
Dosel arboreo
@es
Dosel del bosque
@es
Dosel forestal
@es
Dosel vegetal
@es
Dosel
@es
prefLabel
Canopia
@it
Canopèa
@oc
Ceannbhrat
@ga
Dosel arbóreo
@es
Foliaj
@ro
Kanopeo
@eo
Kapalılık
@tr
Krone
@da
Miško skliautas
@lt
Schirm
@de
P6366
P646
P7033
P1417
science/canopy-forests
P373
Tree canopies