Arctic warming, increasing snow cover and widespread boreal winter cooling

Cohen, Judah; Furtado, Jason C.; Barlow, Mathew; Alexeev, V. A.; Cherry, J. E.

doi:10.1088/1748-9326/7/1/014007

Cited by 450 publications

(408 citation statements)

References 37 publications

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“…In fall, the decreasing NF days' trend coincides with a positive trend in the number of TR days, implying that the fall TR season is beginning earlier and extending over a longer period. The seasonal decrease in NF days and the corresponding increase in TR days imply regional cooling in the fall; the mechanisms for this apparent HNL cooling are uncertain but are consistent with reported increases in HNL moisture and snow cover in fall attributed to summer warming and sea ice decline (Cohen et al 2012a(Cohen et al , 2012bPark et al 2013). The recent increase in fall snow cover may promote regional cooling due to an enhanced snow-albedo feedback (Déry and Brown 2007).…”

Section: Ft-esdr Trend Analysissupporting

confidence: 62%

Attribution of divergent northern vegetation growth responses to lengthening non-frozen seasons using satellite optical-NIR and microwave remote sensing

Kim

Kimball

Zhang

et al. 2014

International Journal of Remote Sensing

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Section: Ft-esdr Trend Analysissupporting

confidence: 62%

Attribution of divergent northern vegetation growth responses to lengthening non-frozen seasons using satellite optical-NIR and microwave remote sensing

Kim

Kimball

Zhang

et al. 2014

International Journal of Remote Sensing

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“…3c). Peng et al (2010) and Cohen et al (Cohen et al 2012(Cohen et al , 2014. Observed SWE for the hemispherical to the sub-continental scale regions shows overall decreasing trends for the 1980-2012 period, except for the regions 'EE' and 'EES' (Fig.…”

Section: Resultsmentioning

confidence: 83%

Attribution of spring snow water equivalent (SWE) changes over the northern hemisphere to anthropogenic effects

2016

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“…Using a coupled global climate model (GCM), the study further documents that the pattern of Pacific decadal variability responsible for the warming hole in North America may be internally generated, and therefore not directly linked to climate change (Meehl et al, 2012). Alternatively, Cohen et al (2012)) suggest that the cooling trends in the eastern United States and northern Eurasia over the last few decades may belie dynamical interactions between greater Eurasian snow cover extent in the fall and negative winter AO. In other parts of the NH, including the leeside of the Tibetan Plateau, complicated interactions across seasons may explain delayed springs (Li et al, 2005).…”

Section: Discussionmentioning

confidence: 89%

Spring onset variations and trends in the continental United States: past and regional assessment using temperature-based indices

2012

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Phenological data are simple yet sensitive indicators of climate change impacts on ecosystems, but observations have not been made routinely or extensively enough to evaluate spatial and temporal patterns across most continents, including North America. As an alternative, many studies use weather-based algorithms to simulate specific phenological responses. Spring Indices (SI) are a set of complex phenological models that have been successfully applied to evaluate variations and trends in the onset of spring across the Northern Hemisphere's temperate regions. To date, SI models have been limited by only producing output in locations where both the plants' chilling and warmth requirements are met. Here, we develop an extended form of the SI (abbreviated SI-x) that expands their application into the subtropics by ignoring chilling requirements while still retaining the utility and accuracy of the original SI (now abbreviated SI-o).The validity of the new indices is tested, and regional SI anomalies are explored across the data-rich continental United States. SI-x variations from 1900 to 2010 show an abrupt and sustained delay in spring onset of about 4-8 d (around 1958) in parts of the Southeast and southern Great Plains, and a comparable advance of 4-8 d (around 1984) in parts of the northern Great Plains and the West. Atmospheric circulation anomalies, linked to large-scale modes of variability, exert modest but significant roles in the timing of spring onset across the United States on interannual and longer timescales. The SI-x are promising metrics for tracking spring onset variations and trends in mid-latitudes, relating them to relevant ecological, hydrological, and socioeconomic phenomena, and exploring connections between atmospheric drivers and seasonal timing.

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Arctic warming, increasing snow cover and widespread boreal winter cooling

Cited by 450 publications

References 37 publications

Attribution of divergent northern vegetation growth responses to lengthening non-frozen seasons using satellite optical-NIR and microwave remote sensing

Attribution of divergent northern vegetation growth responses to lengthening non-frozen seasons using satellite optical-NIR and microwave remote sensing

Attribution of spring snow water equivalent (SWE) changes over the northern hemisphere to anthropogenic effects

Spring onset variations and trends in the continental United States: past and regional assessment using temperature-based indices

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