Determination of elemental baseline using peltigeralean lichens from Northeastern Canada (Québec): Initial data collection for long term monitoring of the impact of global climate change on boreal and subarctic area in Canada

Experimental Analysis of the Impact on the Durability of Concrete Additions

Solid State Phenomena ◽

10.4028/www.scientific.net/ssp.249.73 ◽

2016 ◽

Vol 249 ◽

pp. 73-78 ◽

Cited By ~ 1

Author(s):

Vladimír Suchánek ◽

Kateřina Hájková

Keyword(s):

Free Fall ◽

Concrete Surface ◽

Hardened Concrete ◽

Concrete Mixer ◽

Long Term Monitoring ◽

The Impact ◽

Term Monitoring ◽

Furnace Slag

This report deals with long term monitoring of durability properties of concrete using different weight doses of various kinds of additions. Particularly limestone, silica fume as a 50% suspension and blast furnace slag were used. Even though the basic recipe is based on the designed concrete, all the fresh concrete was made with a free-fall concrete mixer in the laboratory. This report deals with long-term monitoring of cement concrete surface resistance to water and defrosting chemicals (achieved 475 cycles). The article also describes results of following tests: determination of concrete frost resistance, depth of water penetration under pressure and depth of chloride penetration. Standard tests of fresh and hardened concrete specimens complement the experiment.

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Shifts in phenology due to global climate change: the need for a yardstick

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2005.3356 ◽

2005 ◽

Vol 272 (1581) ◽

pp. 2561-2569 ◽

Cited By ~ 812

Author(s):

Marcel E Visser ◽

Christiaan Both

Keyword(s):

Climate Change ◽

Global Climate Change ◽

Global Climate ◽

Natural World ◽

First Approximation ◽

Taxonomic Groups ◽

Almost All ◽

The Impact ◽

Species Shifts

Climate change has led to shifts in phenology in many species distributed widely across taxonomic groups. It is, however, unclear how we should interpret these shifts without some sort of a yardstick: a measure that will reflect how much a species should be shifting to match the change in its environment caused by climate change. Here, we assume that the shift in the phenology of a species' food abundance is, by a first approximation, an appropriate yardstick. We review the few examples that are available, ranging from birds to marine plankton. In almost all of these examples, the phenology of the focal species shifts either too little (five out of 11) or too much (three out of 11) compared to the yardstick. Thus, many species are becoming mistimed due to climate change. We urge researchers with long-term datasets on phenology to link their data with those that may serve as a yardstick, because documentation of the incidence of climate change-induced mistiming is crucial in assessing the impact of global climate change on the natural world.

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The Italian TREETALKER NETWORK (ITT-Net): continuous large scale monitoring of tree functional traits and vulnerabilities to climate change

10.5194/egusphere-egu2020-20591 ◽

2020 ◽

Author(s):

Simona Castaldi ◽

Serena Antonucci ◽

Shahla Asgharina ◽

Giovanna Battipaglia ◽

Luca Belelli Marchesini ◽

...

Keyword(s):

Climate Change ◽

Real Time ◽

High Frequency ◽

Large Scale ◽

Operation Mode ◽

Cloud Services ◽

Long Term Monitoring ◽

The Impact ◽

Term Monitoring

The &#160;Italian TREETALKER NETWORK (ITT-Net) aims to respond to one of the grand societal challenges: the impact of climate changes on forests ecosystem services and forest dieback. The comprehension of the link between these phenomena requires to complement the most classical approaches with a new monitoring paradigm based on large scale, single tree, high frequency and long-term monitoring tree physiology, which, at present, is limited by the still elevated costs of multi-sensor devices, their energy demand and maintenance not always suitable for monitoring in remote areas. The ITT-Net network will be a unique and unprecedented worldwide example of real time, large scale, high frequency and long-term monitoring of tree physiological parameters. By spring 2020, as part of a national funded project (PRIN) the network will have set 37 sites from the north-east Alps to Sicily where a new low cost, multisensor technology &#8220;the TreeTalker&#174;&#8221; equipped to measure tree radial growth, sap flow, transmitted light spectral components related to foliage dieback and physiology and plant stability (developed by Nature 4.0), will monitor over 600 individual trees. A radio LoRa protocol for data transmission and access to cloud services will allow to transmit in real time high frequency data on the WEB cloud with a unique IoT identifier to a common database where big data analysis will be performed to explore the causal dependency of climate events and environmental disturbances with tree functionality and resilience.With this new network, we aim to create a new knowledge, introducing a massive data observation and analysis, about the frequency, intensity and dynamical patterns of climate anomalies perturbation on plant physiological response dynamics in order to: 1) characterize the space of &#8220;normal or safe tree operation mode&#8221; during average climatic conditions; 2) identify the non-linear tree responses beyond the safe operation mode, induced by extreme events, and the tipping points; 3) test the possibility to use a high frequency continuous monitoring system to identify early warning signals of tree stress which might allow to follow tree dynamics under climate change in real time at a resolution and accuracy that cannot always be provided through forest inventories or remote sensing technologies.To have an overview of the ITT Network you can visit www.globaltreetalker.org&#160;

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The impact of climate change on vadose zone pore waters and its implication for long-term monitoring

Computers & Geosciences ◽

10.1016/s0098-3004(03)00014-1 ◽

2003 ◽

Vol 29 (3) ◽

pp. 399-411 ◽

Cited By ~ 7

Author(s):

William E Glassley ◽

John J Nitao ◽

Charles W Grant ◽

James W Johnson ◽

Carl I Steefel ◽

...

Keyword(s):

Climate Change ◽

Vadose Zone ◽

Pore Waters ◽

Impact Of Climate Change ◽

Long Term Monitoring ◽

The Impact ◽

Term Monitoring

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Climate change alone cannot explain altered tick distribution across Europe: a spotlight on endemic and invasive tick species.

10.1079/9781789249637.0018 ◽

2021 ◽

pp. 125-131

Author(s):

Frederic Stachurski ◽

Nathalie Boulanger ◽

Adrien Blisnick ◽

Laurence Vial ◽

Sarah Bonnet

Keyword(s):

Climate Change ◽

Tick Species ◽

Large Scale ◽

External Environment ◽

Climatic Conditions ◽

Climatic Impact ◽

Long Term Monitoring ◽

The Impact ◽

Term Monitoring

Abstract The effect of climate on the evolution of tick populations remains difficult to disentangle from other possible causes and undoubtedly varies depending on the region concerned and local tick species. Large-scale, long-term monitoring is, therefore, necessary to accurately assess climatic impact on tick populations. Climate change can alter tick populations, either indirectly by affecting vertebrate host populations or directly by increasing or decreasing their numbers. These ectoparasites, and in particular hard ticks, spend almost their entire life cycle in the external environment, thus climatic conditions influence their activity, viability and distribution. This expert opinion aims to illustrate the impact of climate change, and its association with other variables, on the distribution and abundance of tick populations in Europe using Ixodes ricinus and Hyalomma marginatum as typical examples of endemic and invasive species, respectively.

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On Climate Change Risks of Long-Term Socio-Economic Development in Russia

Russian Economic Journal ◽

10.33983/0130-9757-2019-5-79-95 ◽

2019 ◽

pp. 79-95

Author(s):

N.E. Terentiev

Keyword(s):

Climate Change ◽

Economic Development ◽

Technological Innovation ◽

Global Climate Change ◽

Global Climate ◽

Climate Risk ◽

Climate Change Risks ◽

Socio Economic Development ◽

Management Policies

Based on the latest data, paper investigates the dynamics of global climate change and its impact on economic growth in the long-term. The notion of climate risk is considered. The main directions of climate risk management policies are analyzed aimed, first, at reducing anthropogenic greenhouse gas emissions through technological innovation and structural economic shifts; secondly, at adaptation of population, territories and economic complexes to the irreparable effects of climate change. The problem of taking into account the phenomenon of climate change in the state economic policy is put in the context of the most urgent tasks of intensification of long-term socio-economic development and parrying strategic challenges to the development of Russia.

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Response of altitudinal vegetation belts of the Tianshan Mountains in northwestern China to climate change during 1989–2015

Scientific Reports ◽

10.1038/s41598-021-84399-z ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Yong Zhang ◽

Lu-yu Liu ◽

Yi Liu ◽

Man Zhang ◽

Cheng-bang An

Keyword(s):

Climate Change ◽

Global Climate Change ◽

Global Climate ◽

Animal Husbandry ◽

Forest Tree ◽

Tianshan Mountains ◽

Northwestern China ◽

Temperature And Precipitation ◽

Altitudinal Belts ◽

The Impact

AbstractWithin the mountain altitudinal vegetation belts, the shift of forest tree lines and subalpine steppe belts to high altitudes constitutes an obvious response to global climate change. However, whether or not similar changes occur in steppe belts (low altitude) and nival belts in different areas within mountain systems remain undetermined. It is also unknown if these, responses to climate change are consistent. Here, using Landsat remote sensing images from 1989 to 2015, we obtained the spatial distribution of altitudinal vegetation belts in different periods of the Tianshan Mountains in Northwestern China. We suggest that the responses from different altitudinal vegetation belts to global climate change are different. The changes in the vegetation belts at low altitudes are spatially different. In high-altitude regions (higher than the forest belts), however, the trend of different altitudinal belts is consistent. Specifically, we focused on analyses of the impact of changes in temperature and precipitation on the nival belts, desert steppe belts, and montane steppe belts. The results demonstrated that the temperature in the study area exhibited an increasing trend, and is the main factor of altitudinal vegetation belts change in the Tianshan Mountains. In the context of a significant increase in temperature, the upper limit of the montane steppe in the eastern and central parts will shift to lower altitudes, which may limit the development of local animal husbandry. The montane steppe in the west, however, exhibits the opposite trend, which may augment the carrying capacity of pastures and promote the development of local animal husbandry. The lower limit of the nival belt will further increase in all studied areas, which may lead to an increase in surface runoff in the central and western regions.

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A real‐world implementation of a nationwide, long‐term monitoring program to assess the impact of agrochemicals and agricultural practices on biodiversity

Ecology and Evolution ◽

10.1002/ece3.6459 ◽

2021 ◽

Author(s):

Camila Andrade ◽

Alexandre Villers ◽

Gérard Balent ◽

Avner Bar‐Hen ◽

Joël Chadoeuf ◽

...

Keyword(s):

Real World ◽

Monitoring Program ◽

Agricultural Practices ◽

Long Term Monitoring ◽

The Impact ◽

Term Monitoring

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Meridional changes in the South Atlantic Subtropical Gyre during Heinrich Stadials

Scientific Reports ◽

10.1038/s41598-021-88817-0 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Tainã M. L. Pinho ◽

Cristiano M. Chiessi ◽

Rodrigo C. Portilho-Ramos ◽

Marília C. Campos ◽

Stefano Crivellari ◽

...

Keyword(s):

Global Climate ◽

South Atlantic ◽

Subtropical Gyre ◽

Climate System ◽

The South ◽

Foraminiferal Species ◽

Ocean Gyres ◽

Long Term Monitoring ◽

Term Monitoring

AbstractSubtropical ocean gyres play a key role in modulating the global climate system redistributing energy between low and high latitudes. A poleward displacement of the subtropical gyres has been observed over the last decades, but the lack of long-term monitoring data hinders an in-depth understanding of their dynamics. Paleoceanographic records offer the opportunity to identify meridional changes in the subtropical gyres and investigate their consequences to the climate system. Here we use the abundance of planktonic foraminiferal species Globorotalia truncatulinodes from a sediment core collected at the northernmost boundary of the South Atlantic Subtropical Gyre (SASG) together with a previously published record of the same species from the southernmost boundary of the SASG to reconstruct meridional fluctuations of the SASG over last ca. 70 kyr. Our findings indicate southward displacements of the SASG during Heinrich Stadials (HS) 6-4 and HS1, and a contraction of the SASG during HS3 and HS2. During HS6-4 and HS1, the SASG southward displacements likely boosted the transfer of heat to the Southern Ocean, ultimately strengthening deep-water upwelling and CO2 release to the atmosphere. We hypothesize that the ongoing SASG poleward displacement may further increase oceanic CO2 release.

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Dynamic Downscaling of the Impact of Climate Change on the Ocean Circulation in the Galápagos Archipelago

Advances in Meteorology ◽

10.1155/2013/837432 ◽

2013 ◽

Vol 2013 ◽

pp. 1-18 ◽

Cited By ~ 7

Author(s):

Yanyun Liu ◽

Lian Xie ◽

John M. Morrison ◽

Daniel Kamykowski

Keyword(s):

Climate Change ◽

Ocean Circulation ◽

Global Climate Change ◽

Climate Model ◽

Global Climate ◽

Ocean Model ◽

Reanalysis Dataset ◽

Equatorial Undercurrent ◽

Galapagos Archipelago ◽

The Impact

The regional impact of global climate change on the ocean circulation around the Galápagos Archipelago is studied using the Hybrid Coordinate Ocean Model (HYCOM) configured for a four-level nested domain system. The modeling system is validated and calibrated using daily atmospheric forcing derived from the NCEP/NCAR reanalysis dataset from 1951 to 2007. The potential impact of future anthropogenic global warming (AGW) in the Galápagos region is examined using the calibrated HYCOM with forcing derived from the IPCC-AR4 climate model. Results show that although the oceanic variability in the entire Galápagos region is significantly affected by global climate change, the degree of such effects is inhomogeneous across the region. The upwelling region to the west of the Isabella Island shows relatively slower warming trends compared to the eastern Galápagos region. Diagnostic analysis suggests that the variability in the western Galápagos upwelling region is affected mainly by equatorial undercurrent (EUC) and Panama currents, while the central/east Galápagos is predominantly affected by both Peru and EUC currents. The inhomogeneous responses in different regions of the Galápagos Archipelago to future AGW can be explained by the incoherent changes of the various current systems in the Galápagos region as a result of global climate change.

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