All‐sky radiation over a glacier surface in the Southern Alps of New Zealand: characterizing cloud effects on incoming shortwave, longwave and net radiation

Conway, Jonathan; Cullen, Nicolas J.; Spronken‐Smith, Rachel; Fitzsimons, Sean J.

doi:10.1002/joc.4014

Cited by 32 publications

(79 citation statements)

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“…Direct mass balance monitoring has been carried out at Brewster Glacier since 2004 and has been recently consolidated by Cullen et al (), making it the longest complete record of its kind in New Zealand. Brewster Glacier has also been the site of extensive surface mass and energy balance modeling (e.g., Anderson et al, ; Conway & Cullen, , ; Conway et al, ; Cullen & Conway, ; Gillett & Cullen, ). Brewster Glacier is one of 50 “index glaciers” in the Southern Alps monitored as part of the end‐of‐summer snowline survey program that was established in 1977 (Chinn et al, ; Willsman et al, ).…”

Section: Field Sitementioning

confidence: 99%

The Role of Atmospheric Rivers for Extreme Ablation and Snowfall Events in the Southern Alps of New Zealand

Little

Kingston

Cullen

et al. 2019

Geophysical Research Letters

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The role of atmospheric rivers (ARs) for extreme ablation and snowfall is examined at Brewster Glacier in the Southern Alps, the site of the longest glacier mass balance record in New Zealand. By global standards, New Zealand is strongly impacted by ARs. Here it is shown for the first time (in New Zealand) that ARs strongly contribute to extreme snowfall and ablation and thus mass balance overall. Vertically integrated water vapor transport (IVT) exceeds 1,600 (800) kg·m−1·s−1 for the largest ablation (snowfall) events, marking these as very strong ARs. The proximity to the freezing threshold during extreme snowfall events indicates the sensitivity of mass balance to temperature variation. Importantly, similarly high rates of IVT during some extreme ablation and snowfall events also occur outside of conventional AR spatial structures. This finding indicates that AR detection algorithms may substantially underestimate the importance of extreme IVT for New Zealand and elsewhere.

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Section: Field Sitementioning

confidence: 99%

The Role of Atmospheric Rivers for Extreme Ablation and Snowfall Events in the Southern Alps of New Zealand

Little

Kingston

Cullen

et al. 2019

Geophysical Research Letters

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“…The data set and specific methods used are presented in Conway et al (2015), but a brief summary is given below. At each half-hourly interval a theoretical upper limit for LW↓ is set by applying the Stefan-Boltzmann law to the observed T a and an emissivity of 1.…”

Section: Data Treatment and Cloud Metricsmentioning

confidence: 99%

“…The inclusion of e a , as well as T a , as a dependent variable in the calculation of theoretical clear-sky LW↓was necessary, as clear-sky LW↓is strongly dependent on both variables at this temperate location (Durr and Philipona, 2004;Conway et al, 2015). The effect of this is to include a larger proportion of days in the clear-sky category, as some clear-sky days with high e a (and LW↓) would have been excluded had only T a been used in the calculation of clear-sky LW↓.…”

Section: Data Treatment and Cloud Metricsmentioning

confidence: 99%

“…High-quality surface climate data presented in Cullen and Conway (2015) are used to force an SMB model (Mölg et al, 2008) to estimate both SEB and SMB terms over this period (measurement period). The cloud metrics presented in Conway et al (2015) are used to identify clear-sky and overcast conditions and thus characterize surface climate, SEB, and melt energy during each condition. To test the sensitivity of SMB to changes in surface climate and radiative components, a more heavily parameterized version of the model is used.…”

Section: Introductionmentioning

confidence: 99%

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Cloud effects on surface energy and mass balance in the ablation area of Brewster Glacier, New Zealand

Conway

Cullen

2016

The Cryosphere

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Abstract. The effect of clouds on glacier surface energy balance (SEB) has received increased attention in the last decade, but how clouds interact with other meteorological forcing to influence surface mass balance (SMB) is not as well understood. This paper resolves the SEB and SMB at a site in the ablation zone of Brewster Glacier over a 22-month period, using high-quality radiation data to carefully evaluate SEB terms and define clear-sky and overcast conditions. A fundamental change in glacier SEB in cloudy conditions was driven by increased effective sky emissivity and surface vapour pressure, rather than a minimal change in air temperature and wind speed. During overcast conditions, positive net long-wave radiation and latent heat fluxes allowed melt to be maintained through a much greater length of time compared to clear-sky conditions, and led to similar melt in each sky condition. The sensitivity of SMB to changes in air temperature was greatly enhanced in overcast compared to clear-sky conditions due to more frequent melt and changes in precipitation phase that created a strong albedo feedback. During the spring and autumn seasons, the sensitivity during overcast conditions was strongest. To capture these processes, future attempts to explore glacier-climate interactions should aim to resolve the effects of atmospheric moisture (vapour, cloud, and precipitation) on melt as well as accumulation, through enhanced statistical or physically based methods.

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“…), the glacier has a southwesterly aspect and a mean slope of 31 • while the lower portion of the glacier has a southerly aspect and a mean slope of 10 • . Brewster Glacier is one of the most well-researched New Zealand glaciers, with recent studies focusing on the atmospheric/meteorological controls on the surface energy and mass balance (Gillett and Cullen, 2011;Conway et al, 2015;Cullen, 2013, 2016;Cullen and Conway, 2015), and the climate sensitivity of Brewster Glacier (Anderson et al, 2010). Brewster Glacier belongs to the 50 index glaciers monitored by the EOSS survey programme with a record of the end of summer snowline altitude (SLA) since 1978 (Chinn et al, 2005;Willsman et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Reconstructing the mass balance of Brewster Glacier, New Zealand, using MODIS-derived glacier-wide albedo

et al. 2016

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Abstract. In New Zealand, direct measurements of mass balance are sparse due to the inaccessibility of glaciers in the Southern Alps and the logistical difficulties associated with maintaining a mass balance record. In order to explore the benefit of remotely sensed imaging to monitor mass balance in the Southern Alps, this research assesses the relationship between measurements of glacier surface albedo derived from Moderate Resolution Imaging Spectroradiometer (MODIS) and mass balance observations using the glaciological method on Brewster Glacier over the 2005-2013 period. We confirm that minimum glacier-wide albedo is a reliable predictor for annual mass balance in this maritime environment (R 2 = 0.93). Furthermore, we show that regular monitoring of glacier-wide albedo enables a new metric of winter accumulation to be derived, namely the cumulative winter albedo, which is found to correlate strongly with winter mass balance (R 2 = 0.88), thus enabling the reconstruction of separate winter and summer mass balance records. This allows the mass balance record for Brewster Glacier to be extended back to the start of MODIS observations in 2000 and to confirm that the annual balance of Brewster Glacier is largely controlled by summer balance (R 2 = 92 %). An application of the extended record is proposed whereby the relationship between mass balance and the photographic record of the end-of-summer snowline altitude is assessed. This allowed the annual balance record of Brewster Glacier to be reconstructed over the period 1977-2013, thus providing the longest record of mass balance for a glacier in New Zealand.Over the 37-year period, our results show that Brewster Glacier gained a significant mass of up to 14.5 ± 2.7 m w.e. by 2007. This gain was offset by a marked shift toward negative balances after 2008, yielding a loss of 5.1 ± 1.2 m w.e., or 35 % of the gain accumulated over the previous 30 years. The good correspondence between mass balance of Brewster Glacier and the phase of the Pacific (Inter-)Decadal Oscillation (PDO/IPO), associated with the fast terminus retreat observed between 1978 and 1998, strongly suggests that the observed mass gain of Brewster Glacier since 1977 is only offsetting a longer sequence of dominantly negative balances.

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All‐sky radiation over a glacier surface in the Southern Alps of New Zealand: characterizing cloud effects on incoming shortwave, longwave and net radiation

Cited by 32 publications

References 64 publications

The Role of Atmospheric Rivers for Extreme Ablation and Snowfall Events in the Southern Alps of New Zealand

The Role of Atmospheric Rivers for Extreme Ablation and Snowfall Events in the Southern Alps of New Zealand

Cloud effects on surface energy and mass balance in the ablation area of Brewster Glacier, New Zealand

Reconstructing the mass balance of Brewster Glacier, New Zealand, using MODIS-derived glacier-wide albedo

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