Assessment of long-term changes in the surface air temperature from the High Arctic archipelago Franz Joseph Land from 1929 to the present (2017)

Electronic archives of data from standard meteorological observations (mean daily/monthly surface air temperatures - SAT) at the meteorological stations at Bukhta Tikhaya (Hooker Island, 1929-1960) and Krenkel Observatory (Hayes Island, 1957-2017) on Franz Josef Land (FJL) are presented. Parallel data series of SAT made in 1958 and 1959 on both meteorological stations were analyzed. Linear regression equations used for extrapolation of observational data representative for Krenkel Observatory for the period 1929-1957 are also presented. The assessment of long-term changes in SAT on FJL was carried out based on the analysis of the obtained series (1929-2017). The main conclusions that follow from our study are: (1) The total warming in the FJL archipelago was 1.6-1.8°C (0.2°C/decade) for the entire available period of instrumental observations (1929-2017); (2) The highest rates of warming were recorded in March-April and amounted to 0.6°C/decade; (3) A particular strong warming has been observed since the 1990s. The annual temperature increased by 6.3°C (2.2°C/decade) for the period 1990-2017 and 5.2°C (2.9°C/decade) for the period 2000-2017; (4) For the period 1990-2017 the maximum rate of warming occurred between October to February with 4.4°C/decade; (5) For the period 2000-2017 the maximum rate of warming occurred between January to April and from November to December with 5.6°C/decade; (6) The dominant seasons of the year are winter (November-April), spring (May), summer (June-September) and autumn (October); (7) Over the entire observation period the largest temperature increase was observed in the winter season. During the period of modern warming (1990-2017), the largest temperature increase was observed in winter and autumn.

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Analysis of Long-term Changes of Days with 25℃ or Higher Air Temperatures in Jeju

Journal of Climate Change Research ◽

10.15531/ksccr.2016.7.1.31 ◽

2016 ◽

Vol 7 (1) ◽

pp. 31 ◽

Cited By ~ 1

Author(s):

Jae-Won Choi ◽

Yumi Cha ◽

Jeoung-Yun Kim ◽

Cheol-Hong Park

Keyword(s):

Air Temperatures ◽

Long Term Changes

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Interannual and long-term changes in the trophic state of a multibasin lake: effects of morphology, climate, winter aeration, and beaver activity

Canadian Journal of Fisheries and Aquatic Sciences ◽

10.1139/cjfas-2015-0249 ◽

2016 ◽

Vol 73 (3) ◽

pp. 445-460 ◽

Cited By ~ 1

Author(s):

Dale M. Robertson ◽

William J. Rose ◽

Paul C. Reneau

Keyword(s):

Water Quality ◽

Trophic State ◽

Secchi Depth ◽

Climatic Changes ◽

Main Flow ◽

Temperature And Precipitation ◽

Air Temperatures ◽

Long Term Changes ◽

P Sources

Little St. Germain Lake (LSG), a relatively pristine multibasin lake in Wisconsin, USA, was examined to determine how morphologic (internal), climatic (external), anthropogenic (winter aeration), and natural (beaver activity) factors affect the trophic state (phosphorus, P; chlorophyll, CHL; and Secchi depth, SD) of each of its basins. Basins intercepting the main flow and external P sources had highest P and CHL and shallowest SD. Internal loading in shallow, polymictic basins caused P and CHL to increase and SD to decrease as summer progressed. Winter aeration used to eliminate winterkill increased summer internal P loading and decreased water quality, while reductions in upstream beaver impoundments had little effect on water quality. Variations in air temperature and precipitation affected each basin differently. Warmer air temperatures increased productivity throughout the lake and decreased clarity in less eutrophic basins. Increased precipitation increased P in the basins intercepting the main flow but had little effect on the isolated deep West Bay. These relations are used to project effects of future climatic changes on LSG and other temperate lakes.

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Atmospheric stilling and warming air temperatures drive long‐term changes in lake stratification in a large oligotrophic lake

Limnology and Oceanography ◽

10.1002/lno.11654 ◽

2020 ◽

Author(s):

Jonathan T. Stetler ◽

Scott Girdner ◽

Jeremy Mack ◽

Luke A. Winslow ◽

Taylor H. Leach ◽

...

Keyword(s):

Oligotrophic Lake ◽

Air Temperatures ◽

Long Term Changes ◽

Lake Stratification

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On the Long-Term Climate Memory in the Surface Air Temperature Records over Antarctica: A Nonnegligible Factor for Trend Evaluation

Journal of Climate ◽

10.1175/jcli-d-14-00733.1 ◽

2015 ◽

Vol 28 (15) ◽

pp. 5922-5934 ◽

Cited By ~ 23

Author(s):

Naiming Yuan ◽

Minghu Ding ◽

Yan Huang ◽

Zuntao Fu ◽

Elena Xoplaki ◽

...

Keyword(s):

White Noise ◽

Surface Air Temperature ◽

Fluctuation Analysis ◽

The West ◽

Weather System ◽

Air Temperatures ◽

Antarctic Continent ◽

Temperature Records ◽

The Antarctic

Abstract In this study, observed temperature records of 12 stations from Antarctica island, coastline, and continental areas are analyzed by means of detrended fluctuation analysis (DFA). After Monte Carlo significance tests, different long-term climate memory (LTM) behaviors are found: temperatures from coastal and island stations are characterized by significant long-term climate memory whereas temperatures over the Antarctic continent behave more like white noise, except for the Byrd station, which is located in the West Antarctica. It is argued that the emergence of LTM may be dominated by the interactions between local weather system and external slow-varying systems (ocean), and therefore the different LTM behaviors between temperatures over the Byrd station and that over other continental stations can be considered as a reflection of the different climatic environments between West and East Antarctica. By calculating the trend significance with the effect of LTM taken into account, and further comparing the results with those obtained from assumptions of autoregressive (AR) process and white noise, it is found that 1) most of the Antarctic stations do not show any significant trends over the past several decades, and 2) more rigorous trend evaluation can be obtained if the effect of LTM is considered. Therefore, it is emphasized that for air temperatures over Antarctica, especially for the Antarctica coastline, island, and the west continental areas, LTM is nonnegligible for trend evaluation.

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Dynamic response of an Arctic epishelf lake to seasonal and long-term forcing: implications for ice shelf thickness

10.5194/tc-2017-19 ◽

2017 ◽

Cited By ~ 1

Author(s):

Andrew K. Hamilton ◽

Bernard E. Laval ◽

Derek R. Mueller ◽

Warwick F. Vincent ◽

Luke Copland

Keyword(s):

Seasonal Variation ◽

Canadian Arctic ◽

The Arctic ◽

Ice Shelf ◽

Ice Shelves ◽

Air Temperatures ◽

Long Term Changes ◽

Episodic Mixing ◽

Outflow Pathway

Abstract. Changes in the depth of the freshwater-seawater interface in epishelf lakes have been used to infer long-term changes in the thickness of ice shelves, however, little is known about the dynamics of epishelf lakes and what other factors may influence their depth. Continuous observations collected between 2011 and 2014 in the Milne Fiord epishelf lake, in the Canadian Arctic, showed that the depth of the halocline varied seasonally by up to 3.3 m, which was comparable to interannual variability. The seasonal depth variation was controlled by the magnitude of surface meltwater inflow and the hydraulics of the inferred outflow pathway, a narrow basal channel in the Milne Ice Shelf. When seasonal variation and an episodic mixing of the halocline were accounted for, long-term records of depth indicated there was no significant change in thickness of ice along the basal channel from 1983 to 2004, followed by a period of steady thinning at 0.50 m a-1 between 2004 and 2011. Rapid thinning at 1.15 m a-1 then occurred from 2011 to 2014, corresponded to a period of warming regional air temperatures. Continued warming is expected to lead to the breakup of the ice shelf and the imminent loss of the last known epishelf lake in the Arctic.

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40 years High Arctic climatological dataset of the Polish Polar Station Hornsund (SW Spitsbergen, Svalbard)

10.5194/essd-2019-222 ◽

2019 ◽

Cited By ~ 1

Author(s):

Tomasz Wawrzyniak ◽

Marzena Osuch

Keyword(s):

Environmental Changes ◽

High Arctic ◽

The Arctic ◽

Data Series ◽

Annual Data ◽

Climate Data ◽

Atlantic Sector ◽

Svalbard Archipelago

Abstract. The article presents the climatological dataset from the Polish Polar Station Hornsund located in the SW part of Spitsbergen - the biggest island of the Svalbard Archipelago. Due to a general lack of long-term in situ measurements and observations, the high Arctic remains one of the largest climate‐data deficient regions on the Earth, so described series is of unique value. To draw conclusions on the climatic changes in the Arctic, it is necessary to analyse the long-term series of continuous, systematic, in situ observations from different locations and comparing the corresponding data, rather than rely on the climatic simulations only. In recent decades, rapid environmental changes occurring in the Atlantic sector of the Arctic are reflected in the data series collected by the operational monitoring conducted at the Hornsund Station. We demonstrate the results of the 40 years-long series of observations. Climatological mean values or totals are given, and we also examined the variability of meteorological variables at monthly and annual scale using the modified Mann-Kendall test for trend and Sen’s method. The relevant daily, monthly, and annual data are provided on the PANGAEA repository (https://doi.org/10.1594/PANGAEA.909042, Wawrzyniak and Osuch, 2019).

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Spatial and temporal variation of surface air temperature at different altitude zone in recent 30 years over Nepal

MAUSAM ◽

10.54302/mausam.v68i3.649 ◽

2021 ◽

Vol 68 (3) ◽

pp. 417-428

Author(s):

JANAK LAL NAYAVA ◽

SUNIL ADHIKARY ◽

OM RATNA BAJRACHARYA

Keyword(s):

Air Temperature ◽

Surface Air Temperature ◽

Temperature Data ◽

Lapse Rate ◽

Spatial And Temporal Variation ◽

Mountain Regions ◽

Temperature Lapse Rate ◽

Air Temperatures ◽

Long Term Trend

This paper investigates long term (30 yrs) altitudinal variations of surface air temperatures based on air temperature data of countrywide scattered 22 stations (15 synoptic and 7 climate stations) in Nepal. Several researchers have reported that rate of air temperature rise (long term trend of atmospheric warming) in Nepal is highest in the Himalayan region (~ 3500 m asl or higher) compared to the Hills and Terai regions. Contrary to the results of previous researchers, however this study found that the increment of annual mean temperature is much higher in the Hills (1000 to 2000 m asl) than in the Terai and Mountain Regions. The temperature lapse rate in a wide altitudinal range of Nepal (70 to 5050 m asl) is -5.65 °C km-1. Warming rates in Terai and Trans-Himalayas (Jomsom) are 0.024 and 0.029 °C/year respectively.

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An analysis of a 34-year air temperature record from Fossil Bluff (71°S, 68°W), Antarctica

Antarctic Science ◽

10.1017/s0954102097000436 ◽

1997 ◽

Vol 9 (3) ◽

pp. 355-363 ◽

Cited By ~ 24

Author(s):

Stephen A. Harangozo ◽

Steven R. Colwell ◽

John C. King

Keyword(s):

Air Temperature ◽

Antarctic Peninsula ◽

Surface Air Temperature ◽

Temperature Record ◽

West Antarctic ◽

Air Temperatures ◽

Marguerite Bay ◽

First Time ◽

Snow Temperature

An analysis of a long-term surface air temperature record for Fossil Bluff in the George VI Sound, West Antarctic Peninsula (WAP) documents in detail some important aspects of the climate of this area for the first time. The analysis identifies the close dependency of air temperatures on latitude in the WAP but reveals that the strength of this dependency is greatest in winter. This result along with others leads to the Fossil Bluff climate regime being characterized as ‘continental’ rather than ‘maritime’ as found further north. The WAP as a whole displays large interannual temperature variability but this is greatest in Marguerite Bay rather than the Fossil Bluff area. Evidence is also provided for secular climatic change appearing in summer throughout the WAP over the last few decades. The representativeness of existing Antarctic Peninsula annual air temperature climatologies, based mainly on snow temperature measurements, for the winter and summer periods is also noted.

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About the features of the time course of the average annual air temperature in the territory of the Debed river basin (Armenia)

E3S Web of Conferences ◽

10.1051/e3sconf/202022303009 ◽

2020 ◽

Vol 223 ◽

pp. 03009

Author(s):

Varduhi Margaryan ◽

Gennady Tsibulskii ◽

Ksenia Raevich

Keyword(s):

River Basin ◽

Air Temperature ◽

Time Course ◽

Data Series ◽

Observation Data ◽

Air Temperatures ◽

Daily Data ◽

Long Term Observation ◽

Surface Air Layer

The article examines the features of the time course of the average annual air temperature in the Debed river basin in Armenia. As a starting material, we used daily data of actual observations of the temperature of the surface air layer for a year in the Debed river basin. The study was carried out at 6 meteorological stations in the Debed river basin based on long-term observation data series from 1930 to the present (2018). Analysis of the trend lines of temporal changes in air temperatures shows that at all meteorological stations currently operating on the territory of the basin, there is mainly a tendency for an increase in temperatures of annual values.

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Changes of Extreme Climate Events in Latvia

Scientific Journal of Riga Technical University Environmental and Climate Technologies ◽

10.2478/v10145-012-0010-1 ◽

2012 ◽

Vol 9 (1) ◽

pp. 4-11 ◽

Cited By ~ 5

Author(s):

Zanita Avotniece ◽

Maris Klavins ◽

Valerijs Rodinovs

Keyword(s):

Spatial Heterogeneity ◽

Extreme Precipitation ◽

Negative Temperature ◽

Temperature Extremes ◽

Extreme Climate Events ◽

Extreme Climate ◽

Air Temperatures ◽

Long Term Changes ◽

Climate Events

Abstract Extreme climate events are increasingly recognized as a threat to human health, agriculture, forestry and other sectors. To assess the occurrence and impacts of extreme climate events, we have investigated the changes of indexes characterizing positive and negative temperature extremes and extreme precipitation as well as the spatial heterogeneity of extreme climate events in Latvia. Trend analysis of long-term changes in the frequency of extreme climate events demonstrated a significant increase in the number of days with extremely high air temperatures and extreme precipitation, and a decrease in the number extremely cold days.

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