Atmospheric Blockings in Western Siberia. Part 2. Long-term Variations in Blocking Frequency and Their Relation with Climatic Variability over Asia

Current climate changes in Russia are attended by the increase in frequency of dangerous weather events. This chapter researches long-term variations of the dangerous weather's events on Western Siberia and to reveal general regularity, which can be associated with forest fires. The researches have been carried out for the territories of southeast of Western Siberia. The duration of the fire season increases due to climate change. This is due both to the earlier snowfall and the onset of the phenological spring, and to the increase in the duration of the thunderstorm period. Thunderstorms in Siberia are a much more frequent cause of forest fires (28%) than in other territories. Wildfire frequency is correlated with air temperature and drought anomalies.

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STUDY OF LONG-TERM VARIATIONS OF CO2 AND CO CONCENTRATIONS IN THE GROUND ATMOSPHERIC LAYER NEAR THE CITY OF TOMSK (WESTERN SIBERIA)

Nato Science Series: IV: Earth and Environmental Sciences - Advances in the Geological Storage of Carbon Dioxide ◽

10.1007/1-4020-4471-2_01 ◽

2006 ◽

pp. 1-9

Author(s):

B.D. Belan ◽

A.V. Fofonov ◽

T.K. Sklyadneva ◽

G.N. Tolmachev

Keyword(s):

Western Siberia ◽

Atmospheric Layer ◽

The City ◽

Co Concentrations ◽

Long Term Variations

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Investigation of the long-term variations in hydro-climatology of the Dinder and Rahad basins and its implications on ecosystems of the Dinder National Park, Sudan

10.5194/hess-2016-407 ◽

2016 ◽

Author(s):

Khalid Hassaballah ◽

Yasir Mohamed ◽

Stefan Uhlenbrook

Keyword(s):

National Park ◽

River Flow ◽

Statistical Tests ◽

Climatic Variability ◽

Rate Of Change ◽

Low Flow ◽

Mk Test ◽

Increasing Trend ◽

Long Term Variations

Abstract. Hydro-climatic variability plays a pivotal role in structuring the biophysical environment of riverine and floodplain ecosystems. Variability is natural, but can also be enhanced by anthropogenic interventions. Alterations of hydro-climatic variables can have significant impacts on the ecohydrological functions of rivers and related ecosystems. Loss of biodiversity and degradation of ecosystems have caused increasing concern about the current situation of the Dinder and Rahad River basins (D&R), particularly the ecosystems of the Dinder National Park (DNP). However the causes are not yet fully understood. Conservation of the DNP ecosystems for direct and indirect human benefit is one of major challenges facing the country. This paper examines the long-term variations of streamflow, rainfall and temperature over the D&R and its implications on DNP ecosystems. Statistical tests of Mann–Kendall (MK) and Pettitt were used. The analysis was carried out for twelve precipitation, one temperature, and two streamflow gauging stations over different time periods. Streamflow characteristics of magnitude, duration, timing, frequency and rate of change in flow that likely impact the ecological functions of the ecosystem of the DNP, were analysed using the Indicators of Hydrologic Alterations (IHA). The MK test showed statistically significant increasing trends of temperature. The mean annual and monthly mean precipitation showed no significant change. Streamflow of the Rahad River showed a significant increasing trend in annual and monthly means at Al-Hawata station, while no significant trend in Dinder River flows at Al-Gewisi station could be observed. However, the Dinder river showed significant decreasing trend in maximum annual and monthly mean and maximum flow during August (month of high flow), and increasing trend during November (month of low flow). The IHA analysis indicated that the Rahad River flow was coupled with significant upward alterations in some of the hydrological indicators. In contrast, the Dinder River flow was coupled with significant downward alterations. This alterations in Dinder river flow are likely affect the ecosystems in DNP negatively. Alterations in magnitude and duration of the annual flood peaks that reduce the amount of water flowing to the river-floodplain, may diminish the production of native flora and fauna, and animal migration that may be linked to floodplain inundation.

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Effect of ecological and conventional managements on soil enzymatic activities in coffee agroecosystems

Pesquisa Agropecuária Tropical ◽

10.1590/1983-40632018v4852373 ◽

2018 ◽

Vol 48 (4) ◽

pp. 420-428

Author(s):

Johana Juliet Caballero Vanegas ◽

Karen Bibiana Mejía Zambrano ◽

Lizeth Manuela Avellaneda-Torres

Keyword(s):

Sustainable Management ◽

Climatic Variability ◽

Agricultural Practices ◽

Enzymatic Activities ◽

Acid And Alkaline Phosphatase ◽

Dry Seasons ◽

Synthetic Fertilizers ◽

Coffee Agroecosystems ◽

Alkaline And Acid Phosphatase

ABSTRACT Understanding the impacts of agricultural practices on soil quality indicators, such as enzymatic activities, is of great importance, in order to advance in their diagnosis and sustainable management. This study aimed to evaluate the effect of ecological and conventional agricultural managements on enzymatic activities of a soil under coffee agroecosystems. The enzymatic activities were associated with the biogeochemical cycles of nitrogen (urease and protease), phosphorus (acid and alkaline phosphatase) and carbon (β-glucosidase), during the rainy and dry seasons. Physical-chemical soil proprieties were also assessed and related to resilience scores linked to the climatic variability reported for the areas under study. The activities of urease, alkaline and acid phosphatase and ß-glucosidase were statistically higher in ecological agroecosystems than in conventional ones. This may be attributed to the greater application of organic waste in the ecological environment, as well as to the absence of pesticides and synthetic fertilizers, which allow better conditions for the microbial activity. The resilience scores to the climate variability that showed the highest correlations with the assessed enzymatic activities were: the farmers' knowledge on soil microorganisms, non-use of pesticides and synthetic fertilizers and non-dependence on external supplies. It was concluded that the enzymatic activities are modified by the management systems, being specifically favored by the ecological management. This agroecosystem, in the long term, ensures an efficient use of the soil resources, with a lower degradation and contamination.

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Fluvial magnetic susceptibility as a proxy for long‐term variations of mountain permafrost development in the Alp‐Carpathian region

Boreas ◽

10.1111/bor.12520 ◽

2021 ◽

Author(s):

Zoltán Püspöki ◽

Philip Leonard Gibbard ◽

Annamária Nádor ◽

Edit Thamó‐Bozsó ◽

Pál Sümegi ◽

...

Keyword(s):

Magnetic Susceptibility ◽

Carpathian Region ◽

Mountain Permafrost ◽

Long Term Variations

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Long-term variations of surface solar radiation in China from routine meteorological observations

Atmospheric Research ◽

10.1016/j.atmosres.2021.105715 ◽

2021 ◽

pp. 105715

Author(s):

Xuefang Yang ◽

Wenmin Qin ◽

Lunche Wang ◽

Ming Zhang ◽

Zigeng Niu

Keyword(s):

Solar Radiation ◽

Surface Solar Radiation ◽

Meteorological Observations ◽

Long Term Variations

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Long-term variations of C1–C5 alkyl nitrates and their sources in Hong Kong

Environmental Pollution ◽

10.1016/j.envpol.2020.116285 ◽

2021 ◽

Vol 270 ◽

pp. 116285

Author(s):

Lewei Zeng ◽

Hai Guo ◽

Xiaopu Lyu ◽

Beining Zhou ◽

Zhenhao Ling ◽

...

Keyword(s):

Hong Kong ◽

Alkyl Nitrates ◽

Long Term Variations

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Application of singular spectrum analysis in reconstruction of the annual signal from GRACE

Journal of Applied Geodesy ◽

10.1515/jag-2020-0005 ◽

2020 ◽

Vol 14 (3) ◽

pp. 295-302

Author(s):

Chuandong Zhu ◽

Wei Zhan ◽

Jinzhao Liu ◽

Ming Chen

Keyword(s):

Time Series ◽

Spectrum Analysis ◽

Singular Spectrum Analysis ◽

Mixture Effect ◽

Singular Spectrum ◽

Grace Data ◽

Terrestrial Water ◽

Annual Signal ◽

Long Term Variations

AbstractThe mixture effect of the long-term variations is a main challenge in single channel singular spectrum analysis (SSA) for the reconstruction of the annual signal from GRACE data. In this paper, a nonlinear long-term variations deduction method is used to improve the accuracy of annual signal reconstructed from GRACE data using SSA. Our method can identify and eliminate the nonlinear long-term variations of the equivalent water height time series recovered from GRACE. Therefore the mixture effect of the long-term variations can be avoided in the annual modes of SSA. For the global terrestrial water recovered from GRACE, the peak to peak value of the annual signal is between 1.4 cm and 126.9 cm, with an average of 11.7 cm. After the long-term and the annual term have been deducted, the standard deviation of residual time series is between 0.9 cm and 9.9 cm, with an average of 2.1 cm. Compared with the traditional least squares fitting method, our method can reflect the dynamic change of the annual signal in global terrestrial water, more accurately with an uncertainty of between 0.3 cm and 2.9 cm.

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The Multiscale Monitoring of Peatland Ecosystem Carbon Cycling in the Middle Taiga Zone of Western Siberia: The Mukhrino Bog Case Study

Land ◽

10.3390/land10080824 ◽

2021 ◽

Vol 10 (8) ◽

pp. 824

Author(s):

Egor Dyukarev ◽

Evgeny Zarov ◽

Pavel Alekseychik ◽

Jelmer Nijp ◽

Nina Filippova ◽

...

Keyword(s):

Carbon Cycling ◽

Western Siberia ◽

Carbon Accumulation ◽

Middle Taiga ◽

Taiga Zone ◽

Field Station ◽

Moss Species ◽

Chamber Method ◽

The Impact

The peatlands of the West Siberian Lowlands, comprising the largest pristine peatland area of the world, have not previously been covered by continuous measurement and monitoring programs. The response of peatlands to climate change occurs over several decades. This paper summarizes the results of peatland carbon balance studies collected over ten years at the Mukhrino field station (Mukhrino FS, MFS) operating in the Middle Taiga Zone of Western Siberia. A multiscale approach was applied for the investigations of peatland carbon cycling. Carbon dioxide fluxes at the local scale studied using the chamber method showed net accumulation with rates from 110, to 57.8 gC m−2 at the Sphagnum hollow site. Net CO2 fluxes at the pine-dwarf shrubs-Sphagnum ridge varied from negative (−32.1 gC m−2 in 2019) to positive (13.4 gC m−2 in 2017). The cumulative May-August net ecosystem exchange (NEE) from eddy-covariance (EC) measurements at the ecosystem scale was −202 gC m−2 in 2015, due to the impact of photosynthesis of pine trees which was not registered by the chamber method. The net annual accumulation of carbon in the live part of mosses was estimated at 24–190 gC m−2 depending on the Sphagnum moss species. Long-term carbon accumulation rates obtained by radiocarbon analysis ranged from 28.5 to 57.2 gC m−2 yr−1, with local extremes of up to 176.2 gC m−2 yr−1. The obtained estimates of various carbon fluxes using EC and chamber methods, the accounting for Sphagnum growth and decomposition, and long-term peat accumulation provided information about the functioning of the peatland ecosystems at different spatial and temporal scales. Multiscale carbon flux monitoring reveals useful new information for forecasting the response of northern peatland carbon cycles to climatic changes.

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