Found: 30
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The optimum fire window: applying the fire–productivity hypothesis to Jurassic climate states.
- Published in:
- Biogeosciences, 2024, v. 21, n. 11, p. 2795, doi. 10.5194/bg-21-2795-2024
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- Article
Principles of fire ecology.
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- Fire Ecology, 2024, v. 20, n. 1, p. 1, doi. 10.1186/s42408-024-00272-0
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Functional traits of fossil plants.
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- New Phytologist, 2024, v. 242, n. 2, p. 392, doi. 10.1111/nph.19622
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Landscape controls on fuel moisture variability in fire-prone heathland and peatland landscapes.
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- Fire Ecology, 2024, v. 20, p. 1, doi. 10.1186/s42408-024-00248-0
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- Article
Initial results of coring at Prees, Cheshire Basin, UK (ICDP JET project): towards an integrated stratigraphy, timescale, and Earth system understanding for the Early Jurassic.
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- Scientific Drilling, 2023, v. 32, p. 1, doi. 10.5194/sd-32-1-2023
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- Article
Environmental changes during the onset of the Late Pliensbachian Event (Early Jurassic) in the Cardigan Bay Basin, Wales.
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- Climate of the Past, 2023, v. 19, n. 5, p. 979, doi. 10.5194/cp-19-979-2023
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- Article
Environmental changes during the onset of the Late Pliensbachian Event (Early Jurassic) in the Mochras Borehole, Cardigan Bay Basin, NW Wales.
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- Climate of the Past Discussions, 2022, p. 1, doi. 10.5194/cp-2022-87
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- Article
Increased fire activity under high atmospheric oxygen concentrations is compatible with the presence of forests.
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- Nature Communications, 2022, v. 13, n. 1, p. 1, doi. 10.1038/s41467-022-35081-z
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- Article
What do you mean, 'megafire'?
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- Global Ecology & Biogeography, 2022, v. 31, n. 10, p. 1906, doi. 10.1111/geb.13499
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- Article
CO<sub>2</sub>‐induced biochemical changes in leaf volatiles decreased fire‐intensity in the run‐up to the Triassic–Jurassic boundary.
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- New Phytologist, 2022, v. 235, n. 4, p. 1442, doi. 10.1111/nph.18299
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- Article
A morphological analysis of Holocene charcoal particles from a peatland in southwest England.
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- Mires & Peat, 2022, n. 28, p. 1, doi. 10.19189/MaP.2020.KHR.StA.2070
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- Article
Shade alters the growth and architecture of tropical grasses by reducing root biomass.
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- Biotropica, 2021, v. 53, n. 4, p. 1052, doi. 10.1111/btp.12943
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The rise of angiosperms strengthened fire feedbacks and improved the regulation of atmospheric oxygen.
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- Nature Communications, 2021, v. 12, n. 1, p. 1, doi. 10.1038/s41467-020-20772-2
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- Article
Volumetric measurement of fossil charcoal: Principles, applications and potential.
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- Holocene, 2020, v. 30, n. 10, p. 1481, doi. 10.1177/0959683620932971
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A novel approach for predicting the probability of ignition of palaeofires using fossil leaf assemblages.
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- Palaeontology, 2019, v. 62, n. 5, p. 715, doi. 10.1111/pala.12417
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Does fuel type influence the amount of charcoal produced in wildfires? Implications for the fossil record.
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- Palaeontology, 2018, v. 61, n. 2, p. 159, doi. 10.1111/pala.12341
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Effects of pyrogenic carbon and fire characteristics on its consumption in subsequent fires.
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- Geophysical Research Abstracts, 2018, v. 20, p. 4402
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Fine-scale distribution of moisture in the surface of a degraded blanket bog and its effects on the potential spread of smouldering fire.
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- Ecohydrology, 2017, v. 10, n. 8, p. n/a, doi. 10.1002/eco.1898
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Observations of the structural changes that occur during charcoalification: implications for identifying charcoal in the fossil record.
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- Palaeontology, 2017, v. 60, n. 4, p. 503, doi. 10.1111/pala.12304
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Charcoal evidence that rising atmospheric oxygen terminated Early Jurassic ocean anoxia.
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- Nature Communications, 2017, v. 8, n. 5, p. 15018, doi. 10.1038/ncomms15018
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- Article
Changes to Cretaceous surface fire behaviour influenced the spread of the early angiosperms.
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- New Phytologist, 2017, v. 213, n. 3, p. 1521, doi. 10.1111/nph.14264
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Area–volume relationships for fossil charcoal and their relevance for fire history reconstruction.
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- Holocene, 2016, v. 26, n. 5, p. 822, doi. 10.1177/0959683615618264
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A 350-million-year legacy of fire adaptation among conifers.
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- Journal of Ecology, 2016, v. 104, n. 2, p. 352, doi. 10.1111/1365-2745.12513
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Determinants of flammability in savanna grass species.
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- Journal of Ecology, 2016, v. 104, n. 1, p. 138, doi. 10.1111/1365-2745.12503
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Charcoal Reflectance Reveals Early Holocene Boreal Deciduous Forests Burned at High Intensities.
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- PLoS ONE, 2015, v. 10, n. 4, p. 1, doi. 10.1371/journal.pone.0120835
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Charring temperatures are driven by the fuel types burned in a peatland wildfire.
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- Frontiers in Plant Science, 2014, v. 5, p. 1, doi. 10.3389/fpls.2014.00714
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Novel Application of Confocal Laser Scanning Microscopy and 3D Volume Rendering toward Improving the Resolution of the Fossil Record of Charcoal.
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- PLoS ONE, 2013, v. 8, n. 8, p. 1, doi. 10.1371/journal.pone.0072265
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Increased Atmospheric SO<sub>2</sub> Detected from Changes in Leaf Physiognomy across the Triassic–Jurassic Boundary Interval of East Greenland.
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- PLoS ONE, 2013, v. 8, n. 4, p. 1, doi. 10.1371/journal.pone.0060614
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Fire-adapted traits of Pinus arose in the fiery Cretaceous.
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- New Phytologist, 2012, v. 194, n. 3, p. 751, doi. 10.1111/j.1469-8137.2012.04079.x
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From fiery beginnings: wildfires facilitated the spread of angiosperms in the Cretaceous Commentary.
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- New Phytologist, 2010, v. 188, n. 4, p. 913, doi. 10.1111/j.1469-8137.2010.03528.x
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- Article