6 research outputs found
Method for the determination of specific molecular markers of biomass burning in lake sediments
Fire has an influence on regional to global atmospheric chemistry and climate. Molecular markers of biomass burning archived in lake sediments are becoming increasingly important in paleoenvironmental reconstruction and may help determine the interaction between climate and fire activity. Here, we present a high performance anion exchange chromatographyâmass spectrometry method to allow separation and analysis of levoglucosan, mannosan and galactosan in lake sediments, with implications for reconstructing past biomass burning events. Determining mannosan and galactosan in Lake Kirkpatrick, New Zealand (45.03°S, 168.57°E) sediment cores and comparing these isomers with the more abundant biomass burning markers levoglucosan and charcoal represents a significant advancement in our ability to analyze past fire activity. Levoglucosan, mannosan and galactosan concentrations correlated significantly with macroscopic charcoal concentration. Levoglucosan/mannosan and levoglucosan/(mannosan + galactosan) ratios may help determine not only when fires occurred, but also if changes in the primary burned vegetation occurred
Late Holocene records of fire and human presence in New Zealand
New Zealand, and the South Island in particular, can be considered an excellent test site for the study of the\ud
early impact of humans on the environment for two main reasons: the Polynesian settlement occurred only\ud
about 700-800 y BP and resulted in abrupt and huge landscape modifications. Burning forest for land clearance\ud
impacted dramatically on an ecosystem that was not adapted to fire, changing the composition of the vegetation\ud
as documented by sedimentary charcoal and pollen records. Although charcoal data give incontrovertible\ud
evidence of some unprecedented fire events right after the arrival of the Maori, its significance as a tracer for local\ud
and anthropogenic fire events has been questioned, stressing the need for new markers to confirm and complete the information about human presence and its effective impact.\ud
In the present work, faecal sterols and polycyclic aromatic hydrocarbons (PAHs) were individuated as suitable\ud
molecular markers and analyzed by GC-MS in a sediment core from Lake Kirkpatrick, located in the Lake\ud
Wakatipu catchment at 570 m a.s.l. in the South Island of New Zealand. Coprostanol accounts for about 60%\ud
of total sterol content in human faeces, being much less relevant in animal dejections. Together with its\ud
degradation product epi-coprostanol, it is well conserved in sedimentary archives and can be highly useful in\ud
paleoenvironmental reconstructions of human settlements. PAHs are produced in relevant amounts by combustion in conditions of oxygen depletion, and diagnostic ratios (DR) between specific molecules can be used for inferring fuel and sources.\ud
The charcoal record for Lake Kirkpatrick shows major fire episodes around AD 1350, confirmed by corresponding high levels of PAHs ascribable to biomass burning (as further evidenced by DR) at c. AD 1350. Moreover, the same trend is observed also in the fluxes of coprostanol and epi-coprostanol, whose sum results in two peaks at c. AD 1346 and 1351. This finding confirms not only the massive presence of humans in the area and the large use of fire at the time, but also complements and refines the reconstructions enabled by charcoal analysis
Aboriginal impacts on fire and vegetation on a Tasmanian island
Aim
To evaluate the influence of climate and Aboriginal landscape management on Holocene vegetation and fire activity.
Location
Flinders Island, Bass Strait, Tasmania where archaeological data document extended periods of human presence and absence over the past 12,000 years.
Methods
We evaluated climateâhumanâfire interactions through high-resolution pollen, charcoal and geochemical analyses of sediment cores from two wetland sites. Proxies for environmental change are qualitatively compared with archaeological data documenting Aboriginal occupation and later abandonment during the mid-Holocene.
Results
Warm and dry conditions of the early Holocene combined with anthropogenic ignitions promoted frequent fires that sustained highly fire-tolerant Eucalyptus savanna. During the mid-Holocene, when both temperatures and precipitation reached Holocene maxima, archaeological data suggest Aboriginal populations abandoned Flinders Island. At this time, Eucalyptus savanna was replaced by Casuarinaceae and broadleaf forests and fire activity decreased. The late Holocene was marked by a transition to increased incidence of intense fires that was associated with a shift from Casuarinaceae forests to xerophytic scrub dominated by Callitris rhomboidea, a conifer that is sensitive to frequent fires but regenerates well following infrequent fires.
Main conclusions
Palaeoenvironmental analyses from Flinders Island document significant shifts in fire regimes and vegetation types through the Holocene. In the early Holocene, Aboriginal landscape management played a key role in maintaining open Eucalyptus savanna, a prime habitat for marsupial prey species. Increasing aridity and strengthening of the El Niño Southern Oscillation climate mode during the mid to late Holocene contributed to the cessation of permanent human occupation and concomitant reduction of ignitions. Infrequent fire activity led to the dominance of xerophytes, especially Callitris, a genus adapted to drought and infrequent high-severity fires. This study highlights how climate change affects the persistence of human populations on islands and the capacity of human-set fires to create savanna habitats.This research was supported by National Science Foundation (NSF) PIRE grant
OISE 0966472, NSF GSS 1024413 and Australian Research
Council (Grant DP110101950). Permission to core wetland
sites on Flinders Island was grant by the Department of Primary Industries, Parks, Water & Environment (Tasmanian
State Government, permit number E11133
A conceptual framework for predicting temperate ecosystem sensitivity to human impacts on fire regimes
Aim: The increased incidence of large fires around much of the world in recent decades raises questions about human and non-human drivers of fire and the likelihood of increased fire activity in the future. The purpose of this paper is to outline a conce