Your search keyword '"Shiklomanov, Alexander"' showing total 3 results

1. Runoff Variability in the Truckee–Carson River Basin from Tree Rings and a Water Balance Model.

Author

Meko, David M., Biondi, Franco, Taylor, Alan H., Panyushkina, Irina P., Thaxton, Richard D., Prusevich, Alexander A., Shiklomanov, Alexander I., Lammers, Richard B., and Glidden, Stanley

Subjects

TREE-rings, WATERSHEDS, RUNOFF, WATER supply management, GLOBAL warming, DROUGHTS, DROUGHT forecasting

Abstract

Regional warming and associated changes in hydrologic systems pose challenges to water supply management in river basins of the western United States and call for improved understanding of the spatial and temporal variability of runoff. We apply a network of total width, subannual width, and delta blue intensity tree-ring chronologies in combination with a monthly water balance model to identify droughts and their associated precipitation P and temperature T footprints in the Truckee–Carson River basin (TCRB). Stepwise regression gave reasonably accurate reconstructions, from 1688 to 1999, of seasonal P and T (e.g., R2 = 0.50 for May–September T). These were disaggregated to monthly values, which were then routed through a water balance model to generate "indirectly" reconstructed runoff. Reconstructed and observed annual runoff correlate highly (r = 0.80) from 1906 to 1999. The extended runoff record shows that twentieth-century droughts are unmatched in severity in a 300-yr context. Our water balance modeling reconstruction advances the conventional regression-based dendrochronological methods as it allows for multiple hydrologic components (evapotranspiration, snowmelt, etc.) to be evaluated. We found that imposed warming (3° and 6°C) generally exacerbated the runoff deficits in past droughts but that impact could be lessened and sometimes even reversed in some years by compensating factors, including changes in snow regime. Our results underscore the value of combining multiproxy tree-ring data with water balance modeling to place past hydrologic droughts in the context of climate change. Significance Statement: We show how water balance modeling in combination with tree-ring data helps place modern droughts in the context of the past few centuries and a warming climate. Seasonal precipitation and temperature were reconstructed from multiproxy tree-ring data for a mountainous location near Lake Tahoe, and these reconstructions were routed through a water balance model to get a record of monthly runoff, snowmelt, and other water balance variables from 1688 to 1999. The resulting extended annual runoff record highlights the unmatched severity of twentieth-century droughts. A warming of 3°C imposed on reconstructed temperature generally exacerbates the runoff anomalies in past droughts, but this effect is sometimes offset by warming-related changes in the snow regime. [ABSTRACT FROM AUTHOR]

Published

2024

2. Coordination and Sustainability of River Observing Activities in the Arctic

Author

McClelland, James W., Tank, Suzanne E., Spencer, Robert G.M., and Shiklomanov, Alexander I.

Published

2015

3. Multidecadal declines in particulate mercury and sediment export from Russian rivers in the pan-Arctic basin.

Author

Zolkos, Scott, Zhulidov, Alexander V., Gurtovaya, Tatiana Yu., Gordeev, Vyacheslav V., Berdnikov, Sergey, Pavlova, Nadezhda, Kalko, Evgenia A., Kuklina, Yana A., Zhulidov, Danil A., Kosmenko, Lyudmila S., Shiklomanov, Alexander I., Suslova, Anya, Geyman, Benjamin M., Thackray, Colin P., Sunderland, Elsie M., Tank, Suzanne E., McClelland, James W., Spencer, Robert G. M., Krabbenhoft, David P., and Robarts, Richard

Subjects

TOTAL suspended solids, WATERSHEDS, MARINE parks & reserves, SUSPENDED sediments, MERCURY, SEDIMENTS

Abstract

High levels of methylmercury accumulation in marine biota are a concern throughout the Arctic, where coastal ocean ecosystems received large riverine inputs of mercury (Hg) (40 Mg·y21) and sediment (20 Tg·y-1) during the last decade, primarily from major Russian rivers. Hg concentrations in fish harvested from these rivers have declined since the late 20th century, but no temporal data on riverine Hg, which is often strongly associated with suspended sediments, were previously available. Here, we investigate temporal trends in Russian river particulate Hg (PHg) and total suspended solids (TSS) to better understand recent changes in the Arctic Hg cycle and its potential future trajectories. We used 1,300 measurements of Hg in TSS together with discharge observations made by Russian hydrochemistry and hydrology monitoring programs to examine changes in PHg and TSS concentrations and fluxes in eight major Russian rivers between ca. 1975 and 2010. Due to decreases in both PHg concentrations (micrograms per gram) and TSS loads, annual PHg export declined from 47 to 7 Mg· y-1 overall and up to 92% for individual rivers. Modeling of atmospheric Hg deposition together with published inventories on reservoir establishment and industrial Hg release point to decreased pollution and sedimentation within reservoirs as predominant drivers of declining PHg export. We estimate that Russian rivers were the primary source of Hg to the Arctic Ocean in the mid to late 20th century. [ABSTRACT FROM AUTHOR]

Published

2022