Oxygen stable isotope ratios of tree-ring cellulose: the next phase of understanding.
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Divergent biochemical fractionation, not convergent temperature, explains cellulose oxygen isotope enrichment across latitudesTree growth acceleration and expansion of alpine forests: The synergistic effect of atmospheric and edaphic changeIncreased water-use efficiency does not lead to enhanced tree growth under xeric and mesic conditions.Qualitative Distinction of Autotrophic and Heterotrophic Processes at the Leaf Level by Means of Triple Stable Isotope (C-O-H) Patterns.Interpreting tree responses to thinning and fertilization using tree-ring stable isotopes.Negative correlation between altitudes and oxygen isotope ratios of seeds: exploring its applicability to assess vertical seed dispersal.Examining the large-scale convergence of photosynthesis-weighted tree leaf temperatures through stable oxygen isotope analysis of multiple data sets.Cellulose (delta)18O is an index of leaf-to-air vapor pressure difference (VPD) in tropical plants.The oxygen isotope enrichment of leaf-exported assimilates--does it always reflect lamina leaf water enrichment?Stable isotopes in tree rings: towards a mechanistic understanding of isotope fractionation and mixing processes from the leaves to the wood.Oxygen isotopes in tree rings record variation in precipitation δ (18)O and amount effects in the south of Mexico.Air mass origin signals in δ 18O of tree-ring cellulose revealed by back-trajectory modeling at the monsoonal Tibetan plateau.Increasing carbon discrimination rates and depth of water uptake favor the growth of Mediterranean evergreen trees in the ecotone with temperate deciduous forests.An oxygen isotope chronometer for cellulose deposition: the successive leaves formed by tillers of a C4 perennial grass.Multi-factorial in vivo stable isotope fractionation: causes, correlations, consequences and applications.Oxygen isotope fractionations across individual leaf carbohydrates in grass and tree species.Applying the dual-isotope conceptual model to interpret physiological trends under uncontrolled conditions.Leaf wax n-alkane δD values are determined early in the ontogeny of Populus trichocarpa leaves when grown under controlled environmental conditions.The role of effective leaf mixing length in the relationship between the δ18 O of stem cellulose and source water across a salinity gradient.Effects of stomatal density and leaf water content on the ¹⁸O enrichment of leaf water.Predicting leaf wax n-alkane 2H/1H ratios: controlled water source and humidity experiments with hydroponically grown trees confirm predictions of Craig-Gordon model.Infidelity in the outback: climate signal recorded in Δ18O of leaf but not branch cellulose of eucalypts across an Australian aridity gradient.A novel methylation derivatization method for δ(18)O analysis of individual carbohydrates by gas chromatography/pyrolysis-isotope ratio mass spectrometry.Temporal stability in bristlecone pine tree-ring stable oxygen isotope chronologies over the last two centuriesSeasonal transfer of oxygen isotopes from precipitation and soil to the tree ring: source water versus needle water enrichmentTree ring δ18 O reveals no long-term change of atmospheric water demand since 1800 in the northern Great Hinggan Mountains, ChinaDiagnosing Atmospheric Influences on the Interannual 18O/16O Variations in Western U.S. PrecipitationInfluence of atmospheric circulation patterns on the oxygen isotope ratio of tree rings in the Alpine region20th century seasonal moisture balance in Southeast Asian montane forests from tree cellulose δ18OIndo-Pacific Warm Pool convection and ENSO since 1867 derived from Cambodian pine tree cellulose oxygen isotopes
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Oxygen stable isotope ratios of tree-ring cellulose: the next phase of understanding.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2009
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Oxygen stable isotope ratios of tree-ring cellulose: the next phase of understanding.
@en
Oxygen stable isotope ratios of tree-ring cellulose: the next phase of understanding.
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type
label
Oxygen stable isotope ratios of tree-ring cellulose: the next phase of understanding.
@en
Oxygen stable isotope ratios of tree-ring cellulose: the next phase of understanding.
@nl
prefLabel
Oxygen stable isotope ratios of tree-ring cellulose: the next phase of understanding.
@en
Oxygen stable isotope ratios of tree-ring cellulose: the next phase of understanding.
@nl
P1433
P1476
Oxygen stable isotope ratios of tree-ring cellulose: the next phase of understanding.
@en
P2093
Leonel da Silveira Lobo O'Reilly Sternberg
P2860
P304
P356
10.1111/J.1469-8137.2008.02661.X
P407
P577
2009-01-01T00:00:00Z