
Products
Group: gpwg2
Journal articles
1.
(2018)
Sparking New Opportunities for Charcoal-Based Fire History Reconstructions
, Fire
1
(1)
, DOI:10.3390/fire1010007
2.
(2016)
Tree biomass reconstruction shows no lag in post-glacial afforestation of eastern Canada
, Canadian Journal of Forest Research
46
(4)
: 485–498
, DOI:10.1139/cjfr-2015-0201
3.
(2017)
Fire has been an important driver of forest dynamics in the Carpathian Mountains during the Holocene
, Forest Ecology and Management
389
: 15–26
, DOI:10.1016/j.foreco.2016.11.046
4.
(2016)
One thousand years of fires: Integrating proxy and model data
, Frontiers of Biogeography
8
(1)
5.
(2016)
Reconstructions of biomass burning from sediment-charcoal records to improve data–model comparisons
, Biogeosciences
13
(11)
: 3225-3244
, DOI:10.5194/bg-13-3225-2016
6.
Murray-Wallace CV
(2016)
7000-year human legacy of elevation-dependent European fire regimes
, Quaternary Science Reviews
132
: 206–212
, DOI:10.1016/j.quascirev.2015.11.012
PAGES Magazine articles
1.
(2016)
Global Paleofire Working Group phase 2 (GPWG2)
, Past Global Changes Magazine
24
(1)
: 31
, DOI:10.22498/pages.24.1.31
2.
(2016)
Bridging data and models
, Past Global Changes Magazine
24
(1)
: 36
, DOI:10.22498/pages.24.1.36
3.
(2016)
Fire, climate and biomes – towards a better understanding of this complex relationship
, PAGES Magazine
24
(2)
: 79
, DOI:10.22498/pages.24.2.79
4.
(2017)
Natural and human-driven fire regime and land-cover changes in Central and Eastern Europe
, Past Global Changes Magazine
25
(2)
: 115
, DOI:10.22498/pages.25.2.115
Workshop reports
1.
2.
(2016)
Fire in the Earth System – bridging data and modelling research
, BAMS
97
(6)
: 1069-1072
, DOI:10.1175/BAMS-D-15-00319.1
3.
Richman BT
(2016)
Paleofires and models illuminate future fire scenarios
, Eos
97
, DOI:10.1029/2016EO049933
Blog articles
1.
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