about
The 4-Dimensional Plant: Effects of Wind-Induced Canopy Movement on Light Fluctuations and Photosynthesis.The arabidopsis ATHB-8 HD-zip protein acts as a differentiation-promoting transcription factor of the vascular meristemsReduced wind speed improves plant growth in a desert cityBlow me down: a new perspective on Aloe dichotoma mortality from windthrow.Experimental evaluation of the sustainability of dwarf bamboo (Pseudosasa usawai) sprout-harvesting practices in Yangminshan National Park, Taiwan.Effects of light and nutrient availability on leaf mechanical properties of Plantago major: a conceptual approachRelative crystallinity of plant biomass: studies on assembly, adaptation and acclimationWind and mechanical stimuli differentially affect leaf traits in Plantago major.Morphological Plant Modeling: Unleashing Geometric and Topological Potential within the Plant SciencesTerrestrial vs aquatic plants: how general is the drag tolerance-avoidance trade-off?Does canopy position affect wood specific gravity in temperate forest trees?Biomechanical consequences of branching in flexible wave-swept macroalgae.Thigmomorphogenetic responses of an aquatic macrophyte to hydrodynamic stressElevated air movement enhances stomatal sensitivity to abscisic acid in leaves developed at high relative air humidity.Evidence of an evolutionary-developmental trade-off between drag avoidance and tolerance strategies in wave-swept intertidal kelps (Laminariales, Phaeophyceae).Factors affecting the compliance and sway properties of tree branches used by the Sumatran orangutan (Pongo abelii)Plant biomechanics and mechanobiology are convergent paths to flourishing interdisciplinary research.Facilitation by Pinus flexilis during succession: a hierarchy of mechanisms benefits other plant species.Challenges to understand plant responses to wind.Stem extension and mechanical stability of Xanthium canadense grown in an open or in a dense stand.Interactive effects of mechanical stress, sand burial and defoliation on growth and mechanical properties in Cynanchum komarovii.Wind loads and competition for light sculpt trees into self-similar structures.Forest trees filter chronic wind-signals to acclimate to high winds.Daytime and nighttime wind differentially affects hydraulic properties and thigmomorphogenic response of poplar saplings.Mechanical stress caused by wind on leaves of Theobroma cacao: Photosynthetic, molecular, antioxidative and ultrastructural responses.Wind and salt spray alter tree shape and dry mass density in Casuarina equisetifolia LEffects of a directional abiotic gradient on plant community dynamics and invasion in a coastal dune systemEffects of a short-term climate change experiment on a sub-Antarctic keystone plant speciesTopographically controlled soil moisture drives plant diversity patterns within grasslandsTopographically controlled soil moisture is the primary driver of local vegetation patterns across a lowland regionTopography as a driver of local terrestrial vascular plant diversity patternsGeographic variation in intertidal oyster reef properties and the influence of tidal prism
P2860
Q27306735-14B4176D-B25F-4663-9BB4-9712617ECCE2Q28366660-2D01B5AD-695F-4612-A0FC-0DA07F589378Q28751690-52AA5832-5B80-4B3E-A3BE-FB91EF8890C0Q30780276-EFB8A3AD-7747-45C9-87BF-49754F592F41Q30832513-CECFACA8-7F5C-4990-A957-EC7944A679EBQ33319671-B26FAD7C-A598-47DA-98F5-ACE0CD716EEEQ33358098-E025D125-E0F0-412A-8210-9C1CAE68903BQ33642133-1A0E136F-70EA-4308-A10D-163997ABF2A1Q33780835-FF724012-AEB2-4E60-A8C5-F8C227255C16Q34089616-EF463BA7-5C2B-4E4A-BF12-19088D12F1FBQ34564672-5911582F-D170-494E-A74C-665C917538A8Q35441130-BE508D17-4910-45AB-B2F7-9B75B925C4ABQ35564399-BD9B6F39-1BAC-4C43-B4AC-E796C1856E13Q35657191-A71FFAC4-4079-4F21-BB86-41ADB6916FE9Q35961317-8770FD91-96FF-4CBA-886D-5AFC29C3A5FAQ36976327-25599B5E-2CC5-4244-B651-44D5741E0DEAQ38160188-FC387AF2-312F-488A-9450-C19BA71BD5B0Q39134520-9E7BEE1A-B004-46B6-970C-FC9ED4F9CFB2Q39325316-F0D28445-3EC8-4C39-AB86-4143056ABB9DQ41194411-DE15D2DB-492C-433F-A42E-F17E8543DBE1Q45086476-9A299D4A-8325-44C4-A679-90F7AE84420BQ46281870-9402A73E-2095-46D0-8759-64C176EDE7F5Q46607945-05FC9ED4-6625-4E39-A7C8-600FBA0E2814Q46643157-2A9D5A40-1CE5-4686-B2A8-3E6F62835020Q55504391-503DBFAA-09C6-4D9A-849A-2F60074ECD53Q56343175-31D804CF-22A5-47AF-ADB0-5690A8013B2FQ56778079-23BDACC9-770F-4088-B67A-22299ACC051CQ57004746-64ACAE07-6DF9-406B-912E-C6D5272440BEQ57068256-11945392-6CB0-4295-BCEF-9309652D8393Q57068261-73D60168-282B-4E8F-ACD9-58BD2D2204CEQ57068266-0E379CF6-CA0D-4086-8C69-A0E11E2B17A9Q58060306-79DD6ACB-8BC5-4E19-8C00-09F55D4BEAB6
P2860
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
1997年论文
@zh
1997年论文
@zh-cn
name
Wind as an ecological factor.
@en
Wind as an ecological factor.
@nl
type
label
Wind as an ecological factor.
@en
Wind as an ecological factor.
@nl
prefLabel
Wind as an ecological factor.
@en
Wind as an ecological factor.
@nl
P1476
Wind as an ecological factor.
@en
P2093
P304
P356
10.1016/S0169-5347(96)10066-5
P577
1997-03-01T00:00:00Z