Fire regime shifts are driven by climate and natural vegetation changes, but can be strongly affected by human land management. Yet, it is poorly known how humans have influenced fire regimes prior to active wildfire suppression. Among the last 250 years, the human contribution to the global increase in fire occurrence during the mid-19th century is especially unclear, as data sources are limited. Here, we test the extent to which forest management has driven fire regime shifts in a temperate forest landscape. We combine multiple fire proxies (macroscopic charcoal and fire-related biomarkers) derived from highly resolved lake sediments (i.e., 3–5 years per sample), and apply a new statistical approach to classify source area- and temperatur...
The spatial component of past forest fires in temperate Europe has been little studied, despite the ...
Spatially explicit reconstructions of fire activity in European boreal forest are rare, which limits...
Understanding long-term forest fire histories of boreal landscapes is instrumental for parameterizin...
Fire regime shifts are driven by climate and natural vegetation changes, but can be strongly affecte...
Fire regime shifts are driven by climate and natural vegetation changes, but can be strongly affecte...
Fire is a critical component of many ecosystems and, as predicted by various climate models, fire ac...
Knowing the historical variation in fire regimes is instrumental in managing forests today and in pr...
Natural disturbance dynamics, such as fire, have a fundamental control on forest composition and str...
Forest fires are a key disturbance in boreal forests, and characteristics of fire regimes are among ...
Context: The boreal forest is globally important for its influence on Earth’s energy balance, and it...
Large, well-documented wildfires have recently generated worldwide attention, and raised concerns ab...
Wildfire occurrence is influenced by climate, vegetation and human activities. A key challenge for u...
The study of forests dominated by red pine (Pinus resinosa Ait.), one of the few fire-resistant tree...
Fire is an important natural disturbance and a driver of hemi-boreal forest successional trajectorie...
The spatial component of past forest fires in temperate Europe has been little studied, despite the ...
Spatially explicit reconstructions of fire activity in European boreal forest are rare, which limits...
Understanding long-term forest fire histories of boreal landscapes is instrumental for parameterizin...
Fire regime shifts are driven by climate and natural vegetation changes, but can be strongly affecte...
Fire regime shifts are driven by climate and natural vegetation changes, but can be strongly affecte...
Fire is a critical component of many ecosystems and, as predicted by various climate models, fire ac...
Knowing the historical variation in fire regimes is instrumental in managing forests today and in pr...
Natural disturbance dynamics, such as fire, have a fundamental control on forest composition and str...
Forest fires are a key disturbance in boreal forests, and characteristics of fire regimes are among ...
Context: The boreal forest is globally important for its influence on Earth’s energy balance, and it...
Large, well-documented wildfires have recently generated worldwide attention, and raised concerns ab...
Wildfire occurrence is influenced by climate, vegetation and human activities. A key challenge for u...
The study of forests dominated by red pine (Pinus resinosa Ait.), one of the few fire-resistant tree...
Fire is an important natural disturbance and a driver of hemi-boreal forest successional trajectorie...
The spatial component of past forest fires in temperate Europe has been little studied, despite the ...
Spatially explicit reconstructions of fire activity in European boreal forest are rare, which limits...
Understanding long-term forest fire histories of boreal landscapes is instrumental for parameterizin...
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