Fire history and the relationship with late Holocene mining activities in the NW Romanian Carpathians reconstructed from two peat core sequences

Little is known about how areas of high ecological value and biodiversity hotpots will be impacted in the long-term by increasing anthropogenic pressure, added to future climate warming. One such example is the Romanian Carpathians, among the richest biogeographical regions in Europe in terms of biodiversity indicators and home to the largest unmanaged old-growth forests in Europe. This area is currently threatened by forest clearance and other anthropogenic land-use change, poor management practices and increased risk to wildfire. Peat bogs are among the most important palaeo-archives for the reconstruction of past environmental changes and disturbance regimes, with the potential to provide the longer-term perspective at a local to regional scale necessary for a sustainable management and restoration of these areas. Here we reconstruct late Holocene fire history and the relationship with anthropogenic disturbance, particularly mining, in a former mining area located in Lapus Mts, NW Romanian Carpathians, based on two peat sequences.To reconstruct past fire activity, we used sedimentary macroscopic charcoal and also employed macro-charcoal morphologies to determine the type of material burnt (wood, grass, forbs). Past local soil/bedrock erosion and regional atmospheric pollution from historical mining were reconstructed on the basis of abiotic sediment properties such as elemental geochemistry, magnetic mineral characteristics, organic matter content and particle size. Our results show clear variations in macro-charcoal concentration, which coincide with changes in the geochemical, magnetic and grain-size indicators. Specifically, increases in macro-charcoal concentration, particularly the wood charcoal morphotype, were shortly followed in both cores by marked increases in heavy metal concentration and by enhanced soil and bedrock erosion, as inferred from geochemical, magnetic and grain-size proxies. This suggests increased local disturbance during intervals with mining activities and indicates the likelihood that humans used fire to clear the forests and open the access to the mining sites. Such actions likely resulted in topsoil removal and bedrock left exposed to environmental and climatic factors. Over the last centuries, the recovery of the local environment is evident in the proxies, with low fire activity and low soil/bedrock erosion, which coincides with the cessation of local mining activities.&#160;By showing both impact and recovery of the landscape, our study offers insight into the past evolution of this area and can be used to predict future possible responses of the local environment to anthropogenic stressors.&#160;&#160;&#160;

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Fire history and the relationship with late Holocene anthropogenic activity in Tăul Mare peat bog in the Lăpuș Mts (Eastern Carpathians). Romania

10.5194/egusphere-egu21-15609 ◽

2021 ◽

Author(s):

Ancuta Petras ◽

Gabriela Florescu ◽

Simon M. Hutchinson ◽

Marcel Mindrescu

Keyword(s):

Fire History ◽

Local Environment ◽

Anthropogenic Disturbances ◽

Mining Sites ◽

Eastern Carpathians ◽

Bedrock Erosion ◽

Fire Activity ◽

Ombrotrophic Peat ◽

Vegetation Burning

Predicted climate warming and increasing anthropogenic pressure on environmental resources are expected to increase wildfire risk in Central and Eastern Europe (including Romania) and thus may affect areas currently outside fire risk areas. Therefore, knowledge of the natural and anthropogenic variability of wildfire, as well as its long-term impacts on the environment can provide an important perspective and be used to enhance the environmental management of this region.Our study aims to reconstruct fire history in relation to anthropogenic disturbances and climate variability, over the last 2000 years in a now forested but former mining area from L&#259;pu&#537; Mts (Eastern Carpathians, Romania) based on an ombrotrophic peat sequence. To reconstruct past fire activity, we employed sedimentary macroscopic charcoal (counts and morphological characteristics), a widely used proxy for gaining insight into long-term fire history and vegetation burning. Ombrotrophic peat bogs are sensitive to local environmental changes and, given that the deposition of allochthonous material is exclusively atmospheric, they are ideal archives for recording charcoal fluxes resulted from vegetation burning. Past local soil/bedrock erosion and regional atmospheric pollution from (pre)historical mining were reconstructed on the basis of abiotic sediment properties such as elemental geochemistry, mineral magnetic characteristics, organic matter content and particle size. Published sources were used to extract information regarding regional climate variability and extra-local to regional vegetation history.Results show that increases in macro-charcoal concentration, particularly the woody charcoal morphotype, were shortly followed by marked increases in heavy metal concentration and by enhanced soil and bedrock erosion, as inferred from geochemical, magnetic and grain-size proxies. This suggests increased local disturbance during intervals with mining activities and indicates the likelihood that humans used fire to clear the forests and open the access to the mining sites. Alternatively, humans could have deforested the landscape to obtain charcoal in kilns, for ore smelting. Such actions likely resulted in topsoil removal and exposed bedrock surfaces, which is supported by the increase in the concentration of detrital elements and small, topsoil-derived magnetic particles in our record. Over recent centuries, the recovery of the local environment is evident in the proxies, with low fire activity and decreased soil/bedrock erosion, which coincides with the abandonment of the mining sites. This multi-proxy study shows the impact of anthropogenic disturbances and the recovery of the local environment and can be used to predict future possible responses of the local environment to stressors.

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Slackwater sediments refine the timing of Late Holocene Icelandic canyon-carving floods and confirm they were smaller than reported

10.21203/rs.3.rs-83734/v1 ◽

2021 ◽

Author(s):

Willem van der Bilt ◽

Iestyn Barr ◽

Sarah Berben ◽

Rick Hennekam ◽

Timothy Lane ◽

...

Keyword(s):

Late Holocene ◽

Geological Evidence ◽

Bedrock Erosion ◽

History Of ◽

The Relationship

Abstract Catastrophic floods have formed deep bedrock canyons on Earth, but the relationship between discharge and erosion remains contested. This hinders efforts to use geological evidence of these cataclysmic events to constrain their magnitude – a prerequisite for impact assessments. This study combines evidence from slackwater sediments with topographic models and hydraulic simulations to constrain the Late Holocene flood history of the Jökulsá á Fjöllum river in northern Iceland. We date floods to 3.5, 1.5 and 1.35 cal. ka BP and confirm that discharge peaks during these events were much smaller than previously reported. In light of recent cosmogenic evidence that nearby knickpoints retreated over 2 km during these floods, our results strengthen simulations and observations indicating that the extent of bedrock erosion is not necessarily controlled by discharge. These findings support a growing consensus that the magnitude of canyon-carving floods is much smaller than typically assumed.

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Late Holocene canyon-carving floods in northern Iceland were smaller than previously reported

Communications Earth & Environment ◽

10.1038/s43247-021-00152-4 ◽

2021 ◽

Vol 2 (1) ◽

Author(s):

Willem G. M. van der Bilt ◽

Iestyn D. Barr ◽

Sarah M. P. Berben ◽

Rick Hennekam ◽

Timothy Lane ◽

...

Keyword(s):

Late Holocene ◽

Peak Discharge ◽

Geological Evidence ◽

Bedrock Erosion ◽

History Of ◽

Exposure Ages ◽

The Relationship

AbstractCatastrophic floods have formed deep bedrock canyons on Earth, but the relationship between peak discharge and bedrock erosion is not clearly understood. This hinders efforts to use geological evidence of these cataclysmic events to constrain their magnitude – a prerequisite for impact assessments. Here, we combine proxy evidence from slackwater sediments with topographic models and hydraulic simulations to constrain the Late Holocene flood history of the Jökulsá á Fjöllum river in northern Iceland. We date floods to 3.5, 1.5 and 1.35 thousand years ago and confirm that flow peaks during these events were at most a third of previous estimates. Nevertheless, exposure ages suggests that nearby knickpoints retreated by more than 2 km during these floods. These findings support a growing consensus that the extent of bedrock erosion is not necessarily controlled by discharge and that canyon-carving floods may be smaller than typically assumed.

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Postglacial Vegetation and Fire History in the Chirripó Páramo of Costa Rica

Quaternary Research ◽

10.1006/qres.1993.1061 ◽

1993 ◽

Vol 40 (1) ◽

pp. 107-116 ◽

Cited By ~ 68

Author(s):

Sally P. Horn

Keyword(s):

Costa Rica ◽

Late Holocene ◽

Fire History ◽

Charcoal Analysis ◽

Climatic Warming ◽

Lowland Forest ◽

Fire Activity ◽

Ice Retreat ◽

The Impact ◽

Cordillera De Talamanca

AbstractPollen and charcoal analysis of a 5.6-m sediment core from Lago de las Morrenas (9°29′N, 83°29′W; 3480 m) provides evidence of postglacial vegetation and fire history in the highlands of the Cordillera de Talamanca, Costa Rica. The site is presently surrounded by treeless páramo vegetation and apparently has been so since deglaciation about 10,000 yr B.P. Pollen spectra suggest no pronounced changes in vegetation since ice retreat. Fires set by people or lightning have burned the páramo repeatedly, with fire activity probably highest during the late Holocene, but these fires have not carved páramo from forest. Pollen percentages for Gramineae and other páramo taxa decline upward, whereas percentages for certain subalpine, lower montane, and lowland forest taxa increase slightly; these changes may reflect the impact of prehistoric human activity or slight upslope migrations of forest taxa owing to climatic warming. There is no clear evidence of higher timberlines during the mid-Holocene.

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Late Holocene fire history documented at Lake Khamra, SW Yakutia (Eastern Siberia)

10.5194/egusphere-egu2020-1018 ◽

2020 ◽

Author(s):

Ramesh Glückler ◽

Ulrike Herzschuh ◽

Luidmila Pestryakova ◽

Stefan Kruse ◽

Stuart Vyse ◽

...

Keyword(s):

Boreal Forest ◽

Boreal Forests ◽

Late Holocene ◽

Fire History ◽

The Arctic ◽

Permafrost Degradation ◽

Reconstructed Temperature ◽

Fire Activity ◽

Microscopic Charcoal ◽

Macroscopic Charcoal

Recent large-scale fire events in Siberia have drawn increased attention to boreal forest fire history. Boreal forests contain about 25% of all global biomass and act as an enormous carbon storage. Fire events are important ecological disturbances connected to the overarching environmental changes that face the Arctic and Subarctic, like vegetation dynamics, permafrost degradation, changes in soil nutrient cycling and global warming, and act as the dominant driver behind boreal forest&#8217;s landscape carbon balance. By looking into past fire regimes we can learn about fire frequency and potential linkages to other environmental factors, e.g. fuel types, reconstructed temperature/humidity or geomorphologic landscape dynamics. Unfortunately, fire history data is still very sparse in large parts of Siberia, a region strongly influenced by climate change. The Global Charcoal Database (www.paleofire.org) lists only a handful of continuous charcoal records for all of Siberia, with only three of those featuring published data from macroscopic charcoal as opposed to microscopic charcoal from pollen slides.We aim to reconstruct the late Holocene fire history using lacustrine sediments of Lake Khamra (SW Yakutia at N 59.99&#176;, E 112.98&#176;). It covers an area of c. 4.6 km&#178; with about 22 m maximum water depth, located within the zone of transition from summer-green and larch-dominated to evergreen boreal forest. We present the first continuous, high-resolution (c. 10 years/sample) macroscopic charcoal record (> 150 &#956;m) including information on particle size and morphology for the past c. 2200 years. We compare this to complementary information from microscopic charcoal in pollen slides, a pollen and non-pollen palynomorph record as well as &#956;XRF data. This multi-proxy approach adds valuable data about fire activity in the region and allows a comparison of different prevalent fire reconstruction methods. As the first record of its kind from Siberia, it provides a long-term context for current fire activity in central Siberian boreal forests and enables a better understanding of the environmental interactions occurring in the changing subarctic landscape.

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Climatic and human controls on the late Holocene fire history of northern Israel

Quaternary Research ◽

10.1016/j.yqres.2013.06.012 ◽

2013 ◽

Vol 80 (3) ◽

pp. 396-405 ◽

Cited By ~ 8

Author(s):

Nadine B. Quintana Krupinski ◽

Jennifer R. Marlon ◽

Ami Nishri ◽

Joseph H. Street ◽

Adina Paytan

Keyword(s):

Black Carbon ◽

Human Activity ◽

Biomass Burning ◽

Late Holocene ◽

Fire History ◽

Lacustrine Sediments ◽

Population Data ◽

High Biomass ◽

Fire Activity

Long-term fire histories provide insight into the effects of climate, ecology and humans on fire activity; they can be generated using accumulation rates of charcoal and soot black carbon in lacustrine sediments. This study uses both charcoal and black carbon, and other paleoclimate indicators from Lake Kinneret (Sea of Galilee), Israel, to reconstruct late Holocene variations in biomass burning and aridity. We compare the fire history data with a regional biomass-burning reconstruction from 18 different charcoal records and with pollen, climate, and population data to decipher the relative impacts of regional climate, vegetation changes, and human activity on fire. We show a long-term decline in fire activity over the past 3070 years, from high biomass burning ~ 3070–1750 cal yr BP to significantly lower levels after ~ 1750 cal yr BP. Human modification of the landscape (e.g., forest clearing, agriculture, settlement expansion and early industry) in periods of low to moderate precipitation appears to have been the greatest cause of high biomass burning during the late Holocene in southern Levant, while wetter climate apparently reduced fire activity during periods of both low and high human activity.

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