Historic and Holocene Environmental Change in the San Antonio Creek Basin, Mid-coastal California

Using a combination of pollen, non-pollen palynomorphs (NPPs) and charcoal particle stratigraphies from sediment cores from two sites, along with historical records, we reconstructed paleoenvironmental change in mid-coastal California. The San Antonio Creek section contains a discontinuous, Holocene-length record, while Mod Pond includes a continuous late Holocene record. Together the records allow for interpretation of most of the present interglacial. The longer record documents coastal sage scrub and chaparral dominated by woodland elements early in the Holocene to about 9000 yr ago, a potential decline in woodland communities with drying conditions during the middle Holocene to about 4800 yr ago, and an expansion of coastal sage scrub with grassland during the late Holocene. Evidence for climatic fluctuations during the last 1000 yr at Mod Pond is equivocal, suggesting that the Medieval Climate Anomaly–Little Ice Age had modest impact on the Mod Pond environment. However, evidence of significant environmental change associated with cultural transitions in the 18th–19th centuries is stark. Introduction of non-native plants, establishment of cattle and sheep grazing, missionization of the native population, changes in burning practices during the Spanish period and enhanced cropping activities during North American settlement worked together to substantially modify the mid-California coastal landscape in about a century's time.

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Expressions of climate perturbations in western Ugandan crater lake sediment records during the last 1000 yr

Climate of the Past Discussions ◽

10.5194/cpd-9-5183-2013 ◽

2013 ◽

Vol 9 (5) ◽

pp. 5183-5226 ◽

Cited By ~ 3

Author(s):

K. Mills ◽

D. B. Ryves ◽

N. J. Anderson ◽

C. L. Bryant ◽

J. J. Tyler

Keyword(s):

Environmental Change ◽

East Africa ◽

Environmental Changes ◽

Sediment Cores ◽

Ice Age ◽

Ecosystem Response ◽

Large Lakes ◽

Crater Lakes ◽

Continental Scale ◽

Western Uganda

Abstract. Equatorial East Africa has a complex, regional patchwork of climate regimes, with multiple interacting drivers. Recent studies have focussed on large lakes and reveal signals that are smoothed in both space and time, and, whilst useful at a continental scale, are of less relevance when understanding short-term, abrupt or immediate impacts of climate and environmental changes. Smaller-scale studies have highlighted spatial complexity and regional heterogeneity of tropical palaeoenvironments in terms of responses to climatic forcing (e.g. the Little Ice Age [LIA]) and questions remain over the spatial extent and synchroneity of climatic changes seen in East African records. Sediment cores from paired crater lakes in western Uganda were examined to assess ecosystem response to long-term climate and environmental change as well as testing responses to multiple drivers using redundancy analysis. These archives provide annual to sub-decadal records of environmental change. The records from the two lakes demonstrate an individualistic response to external (e.g. climatic) drivers, however, some of the broader patterns observed across East Africa suggest that the lakes are indeed sensitive to climatic perturbations such as a dry Mediaeval Climate Anomaly (MCA; 1000–1200 AD) and a relatively drier climate during the main phase of the LIA (1500–1800 AD); though lake levels in western Uganda do fluctuate. The relationship of Ugandan lakes to regional climate drivers breaks down c. 1800 AD, when major changes in the ecosystems appear to be a response to sediment and nutrient influxes as a result of increasing cultural impacts within the lake catchments. The data highlight the complexity of individual lake response to climate forcing, indicating shifting drivers through time. This research also highlights the importance of using multi-lake studies within a landscape to allow for rigorous testing of climate reconstructions, forcing and ecosystem response.

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Late Holocene glacier and climate reconstruction from proglacial records in Vatnsdalur, northern Iceland.

10.5194/egusphere-egu2020-809 ◽

2020 ◽

Author(s):

Konstantin Nebel ◽

Timothy Lane ◽

Kathryn Adamson ◽

Iestyn Barr ◽

Willem van der Bilt ◽

...

Keyword(s):

High Resolution ◽

Environmental Change ◽

North Atlantic ◽

Late Holocene ◽

Sediment Cores ◽

Arctic Region ◽

Arctic Climate ◽

The Arctic ◽

Air Masses ◽

Proglacial Lake

The Arctic region is experiencing surface air temperature increase of twice the global average. To better understand Holocene Arctic climate variability, there is the need for continuous, high-resolution palaeoclimate archives. Sediment cores from proglacial lakes can provide such climate archives, and have the potential to record past environmental change in detail.&#160;&#160;&#160;&#160;&#160;&#160;&#160;Vatnsdalur, a valley in northern Iceland, hosts small, climatically sensitive cirque glaciers that became independent from the Iceland Ice Sheet after its retreat following the Last Glacial Maximum (c. 15 ka BP). Importantly, this region is located at the confluence of warm water and air masses from the south and cold polar water and air masses from the north, making it highly sensitive to North Atlantic and Arctic climate change. However, at present the region is highly understudied, lacking any high-resolution climate reconstructions.&#160;&#160;&#160;&#160;&#160;&#160;&#160;&#160;&#160;&#160;&#160;To address this, we combine geomorphological mapping with the first high-resolution analysis of proglacial lake sediments, to thoroughly examine northern Iceland Late Holocene environmental change.Field mapping supplemented by high-resolution drone data was used to characterise catchment geomorphology, including seven Holocene moraines. A sediment core (SKD-P1-18) from proglacial lake Skei&#240;svatn, Vatnsdalur, was analysed for sedimentological (dry bulk density, loss-on-ignition, grain size), geophysical (magnetic susceptibility) and geochemical (X-ray fluorescence core scan, 2 mm resolution) parameters. &#160;&#160;&#160;&#160;&#160;&#160;&#160;&#160;&#160;&#160;&#160; We identify three main sedimentary facies from these analyses, indicating variations in glacial input and catchment environmental conditions. Radiocarbon dating of lake macrofossils, supplemented by tephrochronology, provides a chronological framework. Catchment point samples, also analysed using the above analytical techniques, were used for sediment fingerprinting to disentangle non-glacial from glacial end-members.Our results indicate the disappearance and reformation of small, climatically sensitive cirque glaciers in Vatnsdalur during the Holocene. We interpret the data to show an abrupt return to a glaciated catchment. Our results fill a geographical gap of high-resolution proglacial sediment studies in the Arctic-North Atlantic region.

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A chironomid-based reconstruction of late-Holocene climate and environmental change for southern Pacific Costa Rica

The Holocene ◽

10.1177/0959683616652702 ◽

2016 ◽

Vol 27 (1) ◽

pp. 73-84 ◽

Cited By ~ 7

Author(s):

Jiaying Wu ◽

David F Porinchu ◽

Sally P Horn

Keyword(s):

Costa Rica ◽

Environmental Change ◽

Late Holocene ◽

Extended Period ◽

Ice Age ◽

Terminal Classic ◽

Climate And Environmental Change ◽

Chironomid Assemblages ◽

Chironomid Community ◽

Thermal Variability

A lake sediment profile spanning the last ~3200 years from Laguna Zoncho in the southern Pacific region of Costa Rica was analyzed for sub-fossil chironomids. Notable shifts in chironomid assemblages occurred during the late-Holocene. A distinct chironomid community, dominated by Tanypodinae such as Procladius and Labrundinia, appeared after ~550 cal. yr BP (~1400 CE). Prior to this time, the chironomid assemblage was more diverse, with taxa such as Paratanytarsus, Tanytarsus type N, and Cladotanytarsus important constituents of the chironomid community. A chironomid-based inference model for mean annual air temperature (MAAT), developed using partial least squares (PLS 2-component), was applied to sub-fossil chironomid assemblages from Laguna Zoncho to reconstruct late-Holocene thermal variability for the region. The key findings from this study are as follows: (1) chironomid-inferred MAAT at ~2740–1220 cal. yr BP (790 BCE–730 CE) was 1.2°C higher than the late-Holocene (~3200 cal. yr BP to present in this study) average of 21.3°C; (2) MAAT at ~470–90 cal. yr BP (1480–1860 CE) was 1.3°C lower than the late-Holocene average, potentially reflecting ‘Little Ice Age’ (LIA) cooling; and (3) evidence for an extended period of low lake levels between 1220 and 840 cal. yr BP (730–1110 CE) possibly indicated the influence of the Terminal Classic Drought (TCD) in southern Costa Rica. This study pioneers the use of sub-fossil chironomid remains to develop quantitative estimates of Holocene thermal variability and environmental change in Central America.

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Late Holocene Vegetation and Environmental Changes of Coastal Lowlands in Northern Iran: Possible Role of Climate, Human Impact and Caspian Sea Level Fluctuations

10.21203/rs.3.rs-157366/v1 ◽

2021 ◽

Author(s):

Fang Gu ◽

Kamaleddin Alizadeh ◽

Hermann Behling

Keyword(s):

Human Impact ◽

Caspian Sea ◽

Late Holocene ◽

Biological Diversity ◽

Ice Age ◽

Northern Iran ◽

Climatic Fluctuations ◽

Alder Forest ◽

Coastal Lowlands

Abstract Coastal forests and wetlands play an important role in supporting biological diversity, protecting the hinterlands and shorelines along the continental margins from erosion, as well as for contributing to carbon and freshwater storage. To reconstruct late Holocene vegetation and environmental dynamics in the coastal lowlands in northern Iran and detect the possible role of climate, human impact and Caspian Sea (CS) level fluctuation on coastal ecosystems, a multi-proxy analysis including pollen, spores, non-pollen palynomorphs, macro-charcoal and X-ray fluorescence analysis, have been applied on the radiocarbon dated sediment cores from the Eynak (EYK) lagoon further inland and Bibi Heybat (BBH) alder swamp near the coast. Open wetlands covered relatively large areas since the recorded period (1450 cal yr BP). At BBH larger areas of open vegetation occurred and alder forests covered only small areas that expanded during the late Little Ice Age (1650-1850 AD) and were most abundant during the last about 100 years. Further inland at EYK, areas of alder and mixed broad-leaved Hyrcanian forest were larger. Alder forest in general expanded since 600 cal yr BP. In the last 170 years, alder forest areas and wetlands declined strongly, due to deforestation and strong human activities. The intensity of human impact, climatic fluctuations and changes in CS level were the most important factors controlling the dynamics of the northern Iranian coastal vegetation.

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The Cyrenaican Prehistory Project 2011: Late-Holocene environments and human activity from a cave fill in Cyrenaica, Libya

Libyan Studies ◽

10.1017/s0263718900004830 ◽

2011 ◽

Vol 42 ◽

pp. 77-87 ◽

Cited By ~ 9

Author(s):

Chris O. Hunt ◽

Ian Brooks ◽

John Meneely ◽

David Brown ◽

Ahmed Buzaian ◽

...

Keyword(s):

Environmental Change ◽

Human Activity ◽

Little Ice Age ◽

Late Holocene ◽

Fourth Century ◽

Ice Age ◽

Changing Environments ◽

Holocene Environmental Change ◽

Stable Burning

AbstractLittle is known about late Holocene environmental change in Cyrenaica. The late Holocene sequence in the Haua Fteah, the key regional site, is highly discontinuous and characterised by stable-burning deposits. The geoarchaeology of the late-Holocene cave fill of a small cave, CP1565, located close to the Haua Fteah, is described. The well-stratified sequence, dating from the fourth century AD to the present day, provides a glimpse of life at the bottom of the settlement hierarchy and of changing environments over the last 1600 years, with degraded vegetation and aridity in the ‘Little Ice Age’.

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Late-Holocene palaeoenvironmental reconstruction from a lake in the Amazon Rainforest-Tropical Savanna (Cerrado) boundary in Brazil using a multi-proxy approach

The Holocene ◽

10.1177/09596836211019091 ◽

2021 ◽

pp. 095968362110190

Author(s):

Kury Milena Souza ◽

Moreira Luciane Silva ◽

Cordeiro Renato Campello ◽

Sifeddine Abdelfettah ◽

Turcq Bruno ◽

...

Keyword(s):

Late Holocene ◽

Amazon Region ◽

Amazon Rainforest ◽

Oxbow Lake ◽

Tropical Savanna ◽

Sedimentary Process ◽

Climatic Fluctuations ◽

Climate Conditions ◽

Depositional Processes ◽

Lake Formation

As an ecotone, the region between the Amazon Rainforest and Tropical Savanna (Cerrado) biomes is, by definition, more susceptible to climate change. Therefore, understanding palaeoenvironmental dynamics is essential to address the future responses of such transition areas to climatic fluctuations. In this context, we present a new sediment record for the Late-Holocene retrieved from Barro-Preto, currently an oxbow lake located in an ecotone at the southern Brazilian Amazon border. Our multi-proxy data include carbon and nitrogen isotopes, as well as bulk TOC, chlorophyll derivatives, grain-size and microcharcoal analyses, all anchored on a radiocarbon-dated chronology. The sedimentary process recorded at the Barro-Preto Lake responded to both local and regional climate dynamics. It was influenced by river excursions associated to local responses to precipitation changes by the activation of the palaeochannel connecting the main-stem river and the Barro-Preto lake. This activation was evidenced by the presence of different colour lithology laminations accompanied by coarser sediments and also by climate conditions known to influence the Amazon region. Depositional processes linked to lake dynamics and different oxbow lake cycle stages were also important to explain the changes verified in the Barro-Preto record, endorsing the use of this lake formation for palaeoclimatic reconstructions. The record indicated a rising humidity trend, reflected by a progressive increase in lacustrine productivity, in accordance to other studies carried out in the Amazon region concerning the Late-Holocene, associated with a more southward displacement of the Intertropical Convergence Zone. Despite this rising humidity trend, dry episodic events during the Late-Holocene were evidenced by charcoal data, also coherent with regional Amazon studies, albeit exhibiting increased intensity, suggesting that the transitional nature of the environment might have influenced susceptibility to fires.

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Vulnerability of the North Water ecosystem to climate change

Nature Communications ◽

10.1038/s41467-021-24742-0 ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Sofia Ribeiro ◽

Audrey Limoges ◽

Guillaume Massé ◽

Kasper L. Johansen ◽

William Colgan ◽

...

Keyword(s):

Climate Change ◽

Sea Ice ◽

Late Holocene ◽

Sediment Cores ◽

Arctic Ecosystems ◽

Little Auk ◽

The North ◽

Water Ecosystem ◽

North Water

AbstractHigh Arctic ecosystems and Indigenous livelihoods are tightly linked and exposed to climate change, yet assessing their sensitivity requires a long-term perspective. Here, we assess the vulnerability of the North Water polynya, a unique seaice ecosystem that sustains the world’s northernmost Inuit communities and several keystone Arctic species. We reconstruct mid-to-late Holocene changes in sea ice, marine primary production, and little auk colony dynamics through multi-proxy analysis of marine and lake sediment cores. Our results suggest a productive ecosystem by 4400–4200 cal yrs b2k coincident with the arrival of the first humans in Greenland. Climate forcing during the late Holocene, leading to periods of polynya instability and marine productivity decline, is strikingly coeval with the human abandonment of Greenland from c. 2200–1200 cal yrs b2k. Our long-term perspective highlights the future decline of the North Water ecosystem, due to climate warming and changing sea-ice conditions, as an important climate change risk.

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Exotic annuals reduce soil heterogeneity in coastal sage scrub soil chemical and biological characteristics

Soil Biology and Biochemistry ◽

10.1016/j.soilbio.2012.09.028 ◽

2013 ◽

Vol 58 ◽

pp. 70-81 ◽

Cited By ~ 15

Author(s):

S.J.M. Dickens ◽

E.B. Allen ◽

L.S. Santiago ◽

D. Crowley

Keyword(s):

Soil Heterogeneity ◽

Coastal Sage Scrub ◽

Biological Characteristics ◽

Sage Scrub

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Holocene eolian sand deposition linked to climatic variability, Northern Great Plains, Canada

The Holocene ◽

10.1177/0959683616670223 ◽

2016 ◽

Vol 27 (4) ◽

pp. 579-593 ◽

Cited By ~ 3

Author(s):

Stephen A Wolfe ◽

Olav B Lian ◽

Christopher H Hugenholtz ◽

Justine R Riches

Keyword(s):

Great Plains ◽

Climatic Variability ◽

Sediment Cores ◽

Soil Formation ◽

Temporal Variations ◽

Ice Age ◽

Northern Great Plains ◽

Eolian Sand ◽

Sand Accumulation ◽

Sand Deposition

The Bigstick and Seward Sand Hills are possibly two of the oldest dune fields within the late Wisconsin glaciated regions of the Northern Great Plains. As with most Northern Great Plains dune fields, source sediments are former proglacial outwash sands. Thus, Holocene dune construction is primarily related to spatial–temporal variations in surface cover and transport capacity, rather than renewed sediment input. However, eolian landscape reconstructions on the Northern Great Plains have been temporally constrained to recent periods of activity, as older episodes of deposition are typically reworked by younger events. In this study, sediment cores from shallow lacustrine basins and interdune areas provide an improved record of Holocene eolian sand deposition. Eolian sand accumulation in the interdunes and basins occurred between 150 and 270 years ago, 1.9 and 3.0 ka, 5.4 and 8.6 ka, and prior to ca. 10.8 ka. These episodes of sand accumulation were bracketed by lacustrine deposition and soil formation, which represented wetter conditions. Other than mid-Holocene dune activity, which may be related to peak warmth and aridity, most periods of eolian sand accumulation coincided with cooler but drier climatic events such as the Younger Dryas, late-Holocene cooling prior to the Medieval Climatic Anomaly, and the ‘Little Ice Age’. These depositional episodes are also spatially represented by other dune fields in the region, providing a broad-scale view of the connections between past climatic events and eolian landscape evolution on the Northern Great Plains.

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