Showing total 8 results

1. Editorial to the Special Issue: Impacts of Compound Hydrological Hazards or Extremes.

Author

Beevers, Lindsay, White, Christopher J., and Pregnolato, Maria

Subjects

HAZARDS, URBAN growth, PHYSICAL sciences, CLIMATOLOGY, FLOOD control, FLOOD risk

Abstract

Hydrological hazards, or "hydro-hazards", are defined as "extreme events associated with the occurrence, movement and distribution of water, such as floods and droughts" (Visser-Quinn et al., 2019 [[1]]). The research suggests that the dominant control on flood vulnerability is urban growth and that better planning, taking into account flood hazard zoning, would have a positive impact on flood exposure. The case study explores the trade-off between dual use flood storage areas flooding and downstream urban flood risk. [Extracted from the article]

Published

2020

2. Influence of Climate on Stable Nitrogen Isotopic Values of Contemporary Greek Samples: Implications for Isotopic Studies of Human Remains from Neolithic to Late Bronze Age Greece.

Author

Dotsika, Elissavet and Diamantopoulos, Georgios

Subjects

DEAD, BRONZE Age, TAPHONOMY, CLIMATOLOGY, DIETARY proteins, HUMAN experimentation

Abstract

In this paper, we study δ15N enrichment as an indicator not only of marine protein diet, but also of climate change. The slope of the variation of δ15N with precipitation was calculated equal to 0.38/100 mm of precipitation for Greek plants, 0.38/100 mm of precipitation for herbivores, and 0.32/100 mm of precipitation for the Greek human population (hair samples). As a case study, the slope was used to re-evaluate the published mean δ15N human bone collagen values from the Early Neolithic to Late Bronze Age for 22 archaeological sites. The results indicate that climate has a significant impact on the final δ15N values of plant and animal tissues. Furthermore, for the same sites, we investigated the intra-site diet patterns, while taking into account the environmental effect on the observed δ15N human bone collagen values. [ABSTRACT FROM AUTHOR]

Published

2019

3. A Dual Stable Isotope Approach Unravels Common Climate Signals and Species-Specific Responses to Environmental Change Stored in Multi-Century Tree-Ring Series from the Tibetan Plateau.

Author

Grießinger, Jussi, Bräuning, Achim, Helle, Gerhard, Schleser, Gerhard Hans, Hochreuther, Philipp, Meier, Wolfgang Jens-Henrik, and Zhu, Haifeng

Subjects

PLATEAUS, STABLE isotopes, TREE-rings, METEOROLOGICAL stations, GROWING season, CLIMATOLOGY

Abstract

Tree-rings are recorders of environmental signals and are therefore often used to reconstruct past environmental conditions. In this paper, we present four annually resolved, multi-centennial tree-ring isotope series from the southeastern Tibetan plateau. The investigation site, where juniper and spruce trees jointly occur, is one of the highest known tree-stands in the world. Tree ring cellulose oxygen (δ18O) and carbon (δ13C) isotopes were analyzed for a common period of 1685–2007 AD to investigate climate–isotope relationships. Therefore, various climate parameters from a local meteorological station and from the CRU 4.02 dataset were used. Tree-ring δ18O of both species revealed highly significant sensitivities with a high degree of coherence to hydroclimate variables during the growing season. The obtained δ18O–climate relationships can even be retained using a species mean. In contrast, the individual δ13C series indicated a weaker and non-uniform response to the tested variables. Underlying species-specific responses and adaptations to the long-term trend in atmospheric CO2 bias even after a trend correction identified dominant environmental factors triggering the tree-ring δ13C at our site. However, analysis of individual intrinsic water-use efficiency in juniper and spruce trees indicated a species-specific adaptation strategy to climate change. [ABSTRACT FROM AUTHOR]

Published

2019

4. Nanoscale Observations Support the Importance of Chemical Processes in Rock Decay and Rock Coating Development in Cold Climates.

Author

Dorn, Ronald I. and Krinsley, David H.

Subjects

CHEMICAL processes, FOCUSED ion beams, MOUNTAIN soils, MEMBRANE potential, ROCKS, CLIMATOLOGY

Abstract

Conventional scholarship long held that rock fracturing from physical processes dominates over chemical rock decay processes in cold climates. The paradigm of the supremacy of cold-climate shattering was questioned by Rapp's discovery (1960) that the flux of dissolved solids leaving a Kärkevagge, Swedish Lapland, watershed exceeded physical denudation processes. Many others since have gone on to document the importance of chemical rock decay in all cold climate landscapes, using a wide variety of analytical approaches. This burgeoning scholarship, however, has only generated a few nanoscale studies. Thus, this paper's purpose rests in an exploration of the potential for nanoscale research to better understand chemical processes operating on rock surfaces in cold climates. Samples from several Antarctica locations, Greenland, the Tibetan Plateau, and high altitude tropical and mid-latitude mountains all illustrate ubiquitous evidence of chemical decay at the nanoscale, even though the surficial appearance of each landscape is dominated by "bare fresh rock." With the growing abundance of focused ion beam (FIB) instruments facilitating sample preparation, the hope is that that future rock decay researchers studying cold climates will add nanoscale microscopy to their bag of tools. [ABSTRACT FROM AUTHOR]

Published

2019

5. A Methodology for Long-Term Monitoring of Climate Change Impacts on Historic Buildings.

Author

Haugen, Annika, Olstad, Tone, Bertolin, Chiara, Leijonhufvud, Gustaf, and Broström, Tor

Subjects

CLIMATE change, CLIMATOLOGY, NORWEGIAN Americans

Abstract

A new methodology for long-term monitoring of climate change impacts on historic buildings and interiors has been developed. This paper proposes a generic framework for how monitoring programs can be developed and describes the planning and arrangement of a Norwegian monitoring campaign. The methodology aims to make it possible to establish a data-driven decision making process based on monitored decay related to climate change. This monitoring campaign includes 45 medieval buildings distributed over the entirety of Norway. Thirty-five of these buildings are dated to before 1537 and include wooden buildings as well as 10 medieval churches built in stone while the remaining 10 buildings are situated in the World Heritage sites of Bryggen, in Bergen on the west coast of Norway, and in Røros, which is a mining town in the inland of the country. The monitoring is planned to run for 30 to 50 years. It includes a zero-level registration and an interval-based registration system focused on relevant indicators, which will make it possible to register climate change-induced decay at an early stage. [ABSTRACT FROM AUTHOR]

Published

2018

6. Gas Hydrate: Environmental and Climate Impacts.

Author

Tinivella, Umberta, Giustiniani, Michela, Vargas Cordero, Ivan de la Cruz, and Vasilev, Atanas

Subjects

GAS hydrates, SLOPE stability, CLIMATOLOGY

Abstract

This Special Issue reports research spanning from the analysis of indirect data, modelling, laboratory and geological data confirming the intrinsic multidisciplinarity of the gas hydrate studies. The study areas are (1) Arctic, (2) Brazil, (3) Chile and (4) the Mediterranean region. The results furnished an important tessera of the knowledge about the relationship of a gas hydrate system with other complex natural phenomena such as climate change, slope stability and earthquakes, and human activities. [ABSTRACT FROM AUTHOR]

Published

2019

7. South Atlantic Surface Boundary Current System during the Last Millennium in the CESM-LME: The Medieval Climate Anomaly and Little Ice Age.

Author

Marcello, Fernanda, Wainer, Ilana, Gent, Peter R., Otto-Bliesner, Bette L., and Brady, Esther C.

Subjects

CLIMATE extremes, LITTLE Ice Age, CLIMATOLOGY

Abstract

Interocean waters that are carried northward through South Atlantic surface boundary currents get meridionally split between two large-scale systems when meeting the South American coast at the western subtropical portion of the basin. This distribution of the zonal flow along the coast is investigated during the Last Millennium, when natural forcing was key to establish climate variability. Of particular interest are the changes between the contrasting periods of the Medieval Climate Anomaly (MCA) and the Little Ice Age (LIA). The investigation is conducted with the simulation results from the Community Earth System Model Last Millennium Ensemble (CESM-LME). It is found that the subtropical South Atlantic circulation pattern differs substantially between these natural climatic extremes, especially at the northern boundary of the subtropical gyre, where the westward-flowing southern branch of the South Equatorial Current (sSEC) bifurcates off the South American coast, originating the equatorward-flowing North Brazil Undercurrent (NBUC) and the poleward Brazil Current (BC). It is shown that during the MCA, a weaker anti-cyclonic subtropical gyre circulation took place (inferred from decreased southern sSEC and BC transports), while the equatorward transport of the Meridional Overturning Circulation return flow was increased (intensified northern sSEC and NBUC). The opposite scenario occurs during the LIA: a more vigorous subtropical gyre circulation with decreased northward transport. [ABSTRACT FROM AUTHOR]

Published

2019

8. Where She Blows! A Ten Year Dust Climatology of Western New South Wales Australia.

Author

Leys, John, Heidenreich, Stephan, Strong, Craig, and Koen, Terry

Subjects

DUST storms, CLIMATOLOGY

Abstract

Dust emissions contribute significantly to atmospheric processes impacting the functioning of various earth and human systems. The question is often asked “how much dust is acceptable?” From a land management perspective, the aim is to reduce the degradation effects of wind erosion over time. To do this, we need to know the range of dust activity over a long time period and to set a target that shows a reduction in dust activity. In this study, dust activity is described by the number of dust hours per July to June period (dust storm year, DSY). We used the DustWatch network of high resolution particulate matter less than 10 µm (PM10) instruments to characterise the dust climatology for a ten year period for western New South Wales (NSW), Australia. The ten year study period covered one of the driest and wettest periods in south-eastern Australia, providing confidence that we have measurements of extremes of dust (0 to 412 h/DSY), rainfall (98 to 967 mm/DSY), and ground cover (0 to 99% of area/DSY). The dust data are then compared to remotely sensed ground cover and measured rainfall data to develop targets across a rainfall gradient. Quantile regression was used to estimate the number of dust hours for a given DSY rainfall at 21 DustWatch Nodes (DWN). The 75th percentile is used to determine the target number of dust hours for a ten year average DSY. The monitoring network clearly identified locations of high dust activity and changes in dust and ground cover that are associated with rainfall. The dust hour targets for NSW indicated that for every 100 mm increase in DSY rainfall (between 250 and 650 mm) there is a 10 h decrease in dust hours. The dust target enables us to evaluate whether wind erosion is decreasing with time for sites with different rainfall. [ABSTRACT FROM AUTHOR]

Published

2018