about
Bacterial community of cushion plant Thylacospermum ceaspitosum on elevational gradient in the Himalayan cold desertAn evolutionary perspective on leaf economics: phylogenetics of leaf mass per area in vascular plantsPlant diversity changes during the postglacial in East Asia: insights from Forest Refugia on Halla Volcano, Jeju IslandVegetation dynamics at the upper elevational limit of vascular plants in HimalayaAssessing the effects of land-use change on plant traits, communities and ecosystem functioning in grasslands: a standardized methodology and lessons from an application to 11 European sites.Soil cyanobacterial and microalgal diversity in dry mountains of Ladakh, NW Himalaya, as related to site, altitude, and vegetation.Tree-rings mirror management legacy: dramatic response of standard oaks to past coppicing in Central Europe.Variation in stem anatomical characteristics of Campanuloideae species in relation to evolutionary history and ecological preferences.Some Like it High! Phylogenetic Diversity of High-Elevation Cyanobacterial Community from Biological Soil Crusts of Western Himalaya.The Root-Associated Microbial Community of the World's Highest Growing Vascular Plants.Environmental factors exert strong control over the climate-growth relationships of Picea abies in Central Europe.Methanogens at the top of the world: occurrence and potential activity of methanogens in newly deglaciated soils in high-altitude cold deserts in the Western Himalayas.SGH: stress or strain gradient hypothesis? Insights from an elevation gradient on the roof of the world.Effect of abandonment and plant classification on carbohydrate reserves of meadow plants.Gardening in the zone of death: an experimental assessment of the absolute elevation limit of vascular plants.Fungal root symbionts of high-altitude vascular plants in the Himalayas.Tree growth and competition in a Betula platyphylla-Larix cajanderi post-fire forest in central Kamchatka.Diversity and feeding strategies of soil microfauna along elevation gradients in Himalayan cold deserts.Is the scaling relationship between carbohydrate storage and leaf biomass in meadow plants affected by the disturbance regime?Increased spruce tree growth in Central Europe since 1960s.Leaf traits capture the effects of land use changes and climate on litter decomposability of grasslands across Europe.Climate vs. soil factors in local adaptation of two common plant species.Response of herbaceous vegetation functional diversity to land use change across five sites in Europe and IsraelPoleward migration of the destructive effects of tropical cyclones during the 20th centuryCorrection to: Nitrogen acquisition, net production and allometry of Alnus fruticosa at a young moraine in Koryto Glacier Valley, Kamchatka, Russian Far EastFunctionally distinct assembly of vascular plants colonizing alpine cushions suggests their vulnerability to climate changeSoilTemp: a global database of near-surface temperatureThe legacy of initial sowing after 20 years of ex-arable land colonisationPlants' eye view of temperature governs elevational distributions
P50
Q28649616-E4A8777A-99A3-4060-98D6-0FD02D5EA310Q28654619-5960E51F-D159-4DB4-A3DF-B97EE0DD422DQ28731262-82F53C03-0FA7-4FAA-95DA-97E135CBA554Q28833631-83ED05F9-9E49-4723-BE6F-1BBD13104299Q33262733-294EE951-B12D-4EDE-8D7B-FA2DCCC03199Q33924035-4CDC97E8-DF67-4560-B6D9-DE8F395D5E19Q34584491-B32340CA-8169-4AC5-9780-A86C981EB607Q35106032-D3F263DB-D9E1-412E-969A-F2B6D28B011AQ35836329-BCC6E9DC-6B4D-47ED-A1B2-699C8A682E8AQ37075591-24DF4414-129C-426E-94FE-6E7852844DF5Q38871040-21153239-19D7-4B1B-B2DD-053A98F3DFB4Q38881131-32BCCAC1-D27E-4155-BF40-79C88171EEE5Q39142040-8F3326B1-E9A6-470F-8343-3FB7D1B33F8BQ39205683-C5E8528F-2D93-4BF8-96A5-8AD0C8D4CBD2Q40111919-94D87FB7-4D0E-4EEC-9027-7F1B56959E8AQ41141327-CA39E826-0D24-474D-9FEF-BB79A5AC9D08Q42029837-6D08872C-7409-4053-B49E-7499D86BD404Q44517977-7EEE579A-94E1-4499-B81D-744407D478C9Q46251116-9DFF6926-3FE1-462D-8053-8C9CAD870AAEQ46264638-C2153EAE-511F-43E1-BF06-0DE4755E14F3Q51664241-E94FD82C-B964-4CD0-A100-33F49BD16B77Q51709404-400CADEF-CA5F-496D-843F-73E892148AC0Q57025064-F78CF375-A5EE-412A-86DE-FC64F555634AQ57805513-4595245C-C545-4808-9FF6-3A77B7C5D002Q88723667-8BDAF8FE-71C6-408B-A662-6F678979E80EQ90429364-8BAF2EE2-D1F0-4A7A-8FE6-67341BE9D09CQ92080350-AE341533-F051-4254-82FE-8C245AAC678AQ92179095-9AB68A24-1394-47B7-A81D-D85F052FDFABQ93151974-96FBB63B-FAE3-40E1-9018-B3F79CBA8A4D
P50
description
botanik a ekolog
@cs
botanist
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jiri Dolezal
@ast
Jiri Dolezal
@nl
Jiří Doležal
@cs
Jiří Doležal
@en
Jiří Doležal
@es
type
label
Jiri Dolezal
@ast
Jiri Dolezal
@nl
Jiří Doležal
@cs
Jiří Doležal
@en
Jiří Doležal
@es
prefLabel
Jiri Dolezal
@ast
Jiri Dolezal
@nl
Jiří Doležal
@cs
Jiří Doležal
@en
Jiří Doležal
@es
P106
P214
P1153
56210277900
P21
P214
P31
P496
0000-0002-5829-4051
P569
1975-07-22T00:00:00Z
P691
jcu2010593427
P734
P735
P7859
lccn-n2018050004