Comparative cryptogam ecology: a review of bryophyte and lichen traits that drive biogeochemistry.
about
Ecosystem response to climatic change: the importance of the cold seasonTRY - a global database of plant traitsThe resilience and functional role of moss in boreal and arctic ecosystems.Bryophyte-cyanobacteria associations as regulators of the northern latitude carbon balance in response to global change.Vascular plants promote ancient peatland carbon loss with climate warmingInteractive effects between plant functional types and soil factors on tundra species diversity and community composition.Moss-cyanobacteria associations as biogenic sources of nitrogen in boreal forest ecosystemsImpact of land-use intensity and productivity on bryophyte diversity in agricultural grasslands.Biocrust morphogroups provide an effective and rapid assessment tool for drylands.Sphagnum physiology in the context of changing climate: emergent influences of genomics, modelling and host-microbiome interactions on understanding ecosystem function.Mapping nutrient resorption efficiencies of subarctic cryptogams and seed plants onto the Tree of Life.Plant functional traits and soil carbon sequestration in contrasting biomes.Impacts of the removal of shrubs on the physiological and biochemical characteristics of Syntrichia caninervis Mitt: in a temperate desert.Life at the boundary: photosynthesis at the soil-fluid interface. A synthesis focusing on mosses.How lichens impact on terrestrial community and ecosystem properties.Morphological, photosynthetic and water relations traits underpin the contrasting success of two tropical lichen groups at the interior and edge of forest fragments.Characterization of Arsenic Biotransformation by a Typical Bryophyte Physcomitrella patens.Bacterial-biota dynamics of eight bryophyte species from different ecosystems.Impacts of long-term enhanced UV-B radiation on bryophytes in two sub-Arctic heathland sites of contrasting water availability.Cryptogamic stem covers may contribute to nitrous oxide consumption by mature beech treesComparative plant ecology as a tool for integrating across scales.Prolonging the hydration and active metabolism from light periods into nights substantially enhances lichen growth.Above- and belowground linkages in Sphagnum peatland: climate warming affects plant-microbial interactions.The role of mosses in carbon uptake and partitioning in arctic vegetation.Symplasmic and apoplasmic transport inside feather moss stems of Pleurozium schreberi and Hylocomium splendens.Sex-specific morphological and physiological differences in the moss Ceratodon purpureus (Dicranales).Are litter decomposition and fire linked through plant species traits?Functional ecology of cryptogams: scaling from bryophyte, lichen, and soil crust traits to ecosystem processes.Lichen physiological traits and growth forms affect communities of associated invertebrates.Higher photosynthetic capacity and different functional trait scaling relationships in erect bryophytes compared with prostrate species.Monitoring liverworts to evaluate the effectiveness of hydroriparian buffers.Life on the Edge-the Biology of Organisms Inhabiting Extreme Environments: An Introduction to the Symposium.How do bryophytes govern generative recruitment of vascular plants?Elemental composition in two water beetles (Dytiscus thianschanicus, Dytiscus persicus) (Dytiscidae: Coleoptera) as revealed by WDXRF spectroscopy.Current Challenges in Plant Eco-Metabolomics.Collolechia revisited and a re-assessment of ascus characteristics in Placynthiaceae (Peltigerales, Ascomycota)Identity of plant, lichen and moss species connects with microbial abundance and soil functioning in Maritime AntarcticaA Race for Space? How Sphagnum fuscum stabilizes vegetation composition during long-term climate manipulationsSeasonal variation of secondary metabolites in nine different bryophytesComputational workflow to study the seasonal variation of secondary metabolites in nine different bryophytes
P2860
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P2860
Comparative cryptogam ecology: a review of bryophyte and lichen traits that drive biogeochemistry.
description
2007 nî lūn-bûn
@nan
2007 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի մարտին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Comparative cryptogam ecology: ...... ts that drive biogeochemistry.
@ast
Comparative cryptogam ecology: ...... ts that drive biogeochemistry.
@en
Comparative cryptogam ecology: ...... ts that drive biogeochemistry.
@nl
type
label
Comparative cryptogam ecology: ...... ts that drive biogeochemistry.
@ast
Comparative cryptogam ecology: ...... ts that drive biogeochemistry.
@en
Comparative cryptogam ecology: ...... ts that drive biogeochemistry.
@nl
prefLabel
Comparative cryptogam ecology: ...... ts that drive biogeochemistry.
@ast
Comparative cryptogam ecology: ...... ts that drive biogeochemistry.
@en
Comparative cryptogam ecology: ...... ts that drive biogeochemistry.
@nl
P2093
P2860
P356
P1433
P1476
Comparative cryptogam ecology: ...... ts that drive biogeochemistry.
@en
P2093
Heinjo J During
Johannes H C Cornelissen
Nadejda A Soudzilovskaia
Simone I Lang
P2860
P304
P356
10.1093/AOB/MCM030
P407
P577
2007-03-12T00:00:00Z