Does anyone actually read this stuff?  Have a look at Google Boffin to find out. You could also look at my staff profile.

 

 

In someone's inbox

 

128) Gourmelen, N., L. Jakob, P.R. Holland, P. Dutrieux, D. Goldberg, S. Bevan, A. Luckman, and G. Malczyk, submitted.

Influence of subglacial lake discharge on recent ice shelf melting and grounding line retreat of Thwaites Glacier.

Nature Geoscience

 

127) Twelves, A.G., D.N. Goldberg, P.R. Holland, S.F. Henley, M.R. Mazloff, and D.C. Jones, submitted.

Chlorophyll production in the Amundsen Sea boosts heat flux to atmosphere and weakens heat flux to ice shelves.

Journal of Geophysical Research-Oceans

 

126) Dalaiden, Q., N.J. Abram, H. Goosse, P.R. Holland, G.K. O’Connor, and D. Topal, submitted.

Tropical and anthropogenic drivers shape multi-decadal atmospheric circulation variability over West Antarctica.

Geophysical Research Letters

 

125) Haigh, M., and P.R. Holland, submitted.

Decadal variability of ice-shelf melting in the Amundsen Sea driven by sea-ice freshwater fluxes.

Geophysical Research Letters

 

124) Heorton, H.D.B.S, M. Tsamados, J.C.Landy, and P.R. Holland, submitted.

Observationally constrained estimates of Arctic sea ice growth and melt 2010—2022.

Annals of Glaciology

 

123) Anselin, J., P.R. Holland, A. Jenkins, and J.R. Taylor, submitted.

Ice base slope effects on the turbulent ice shelf-ocean boundary current.

Journal of Physical Oceanography

 

122) Holmes, C.R., T.J. Bracegirdle, P.R. Holland, J. Stroeve, and J. Wilkinson, submitted.

Brief Communication: Antarctic sea ice loss brings observed trends into agreement with climate models.

The Cryosphere

 

121) Collins, M. and 30 others, submitted.

Emerging signals of climate change from the equator to the poles: new insights on a warming world.

Frontiers in Science

 

120) Bett, D.T., A.T. Bradley, C.R. Williams, P.R. Holland, R.J. Arthern, and D.N. Goldberg, submitted.

Coupled ice/ocean interactions during the future retreat of West Antarctic ice streams.

The Cryosphere

 

 

2024

 

119) Cheng, C., A. Jenkins, P.R. Holland, Z. Wang, J. Dong, and C. Liu, 2024.

Ice shelf basal channel shape determines channelized ice-ocean interactions.

Nature Communications, 15: 2877. doi: 10.1038/s41467-024-47351-z. [PDF]

 

118) Bradley, A.T., D.T. Bett, P.R. Holland, C.R. Williams, R.J. Arthern, and J. De Rydt, 2024.

A framework for estimating the anthropogenic part of Antarctica’s sea level contribution in a synthetic setting.

Communications Earth and Environment, 5: 121. doi: 10.1038/s43247-024-01287-w. [PDF]

 

117) Zanker, J.C., E. Young, P.R. Holland, I.D. Haigh, and P. Brickle, 2024.

Oceanographic variability in Cumberland Bay, South Georgia, and its implications for glacier retreat.

Journal of Geophysical Research-Oceans, 129: e2023JC020507. doi: 10.1029/2023JC020507. [PDF]

 

116) Drijfhout, S.S., C.Y.S. Bull, H. Hewitt, P.R. Holland, A. Jenkins, P. Mathiot, and A.C. Naveira Garabato, 2024.

An Amundsen Sea source of decadal temperature changes on the Antarctic continental shelf.

Ocean Dynamics, 74:37–52. doi: 10.1007/s10236-023-01587-3. [PDF]

 

 

2023

 

115) Sanders, R.N.C, A.J.S. Meijers, P.R. Holland, and A.C. Naveira Garabato, 2023.

Sea ice-driven variability in the Pacific Subantarctic Mode Water formation regions.

Journal of Geophysical Research-Oceans, 128: e2023JC020006. doi: 10.1029/2023JC020006. [PDF]

 

114) Naughten, K.A., P.R. Holland, and J. De Rydt, 2023.

Unavoidable future increase in West Antarctic ice-shelf melting over the twenty-first century.

Nature Climate Change, 13:1222–1228. doi: 10.1038/s41558-023-01818-x. [PDF]

 

113) O’Connor, G.K., P.R. Holland, E.J. Steig, P. Dutrieux and G.J. Hakim, 2023.

Characteristics and rarity of the strong 1940s westerly wind event over the Amundsen Sea, West Antarctica.

The Cryosphere, 17:4399–4420. doi: 10.5194/tc-17-4399-2023. [PDF]

 

112) Bradley, A.T., J. De Rydt, D.T. Bett, P. Dutrieux, and P.R. Holland, 2023.

The ice dynamic and melting response of Pine Island Ice Shelf to calving.

Annals of Glaciology, 63: 111–115. doi:10.1017/aog.2023.24. [PDF]

 

111) Himmich, K., M. Vancoppenolle, G. Madec, J.-B. Sallée, P.R. Holland, and M. Lebrun, 2023.

Drivers of Antarctic sea ice advance

Nature Communications, 14: 6219, doi:10.1038/s41467-023-41962-8. [PDF]

 

110) Goldberg, D.N., A.G. Twelves, P.R. Holland, and M.G. Wearing, 2023.

The non-local impacts of Antarctic subglacial runoff.

Journal of Geophysical Research-Oceans, 128: e2023JC019823, doi:10.1029/2023JC019823. [PDF]

 

109) Thomas, M., J.K. Ridley, I.J. Smith, D.P. Stevens, P.R. Holland, and S. Mackie, 2023.

Future response of Antarctic continental shelf temperatures to ice shelf basal melting and calving.

Geophysical Research Letters, 50: e2022GL102101, doi:10.1029/2022GL102101. [PDF]

 

108) Lambert, E., A Jüling, R.S.W van de Wal, and P.R. Holland, 2023.

Modeling Antarctic ice shelf basal melt patterns using the one-Layer Antarctic model for Dynamical Downscaling of Ice-ocean Exchanges (LADDIE v1.0)

The Cryosphere, 17: 3203–3228, doi: 10.5194/tc-17-3203-2023. [PDF]

 

107) Zhou, S., A.J.S. Meijers, M.P. Meredith, E.P. Abrahamsen, P.R. Holland, A. Silvano, J.-B. Sallée, and S. Østerhus, 2023.

Slowdown of Antarctic Bottom Water export driven by climatic wind and sea ice changes.

Nature Climate Change, 13: 701-709, doi: 10.1038/s41558-023-01695-4. [PDF]

 

106) Haigh, M., P.R. Holland, and A. Jenkins, 2023.

The influence of bathymetry over heat transport onto the Amundsen Sea continental shelf.

Journal of Geophysical Research-Oceans, 128: e2022JC019460, doi: 10.1029/2022JC019460. [PDF]

 

105) Wang, J., L. Yu, H. Luo, X, Li, P.R. Holland, and Q. Yang, 2023.

The impacts of combined SAM and ENSO on seasonal Antarctic sea ice changes.

Journal of Climate, 36: 3553-3569, doi: 10.1175/JCLI-D-22-0679.1. [PDF]

 

104) Holland, P.R., S.L. Bevan, and A.J. Luckman, 2023.

Strong ocean melting feedback during the recent retreat of Thwaites Glacier.

Geophysical Research Letters, 50: e2023GL103088, doi: 10.1029/2023GL103088. [PDF]

 

103) Gómez-Valdivia, F., P.R. Holland, A. Siahaan, P. Dutrieux, and E. Young, 2023.

Projected West Antarctic ocean warming caused by an expansion of the Ross Gyre.

Geophysical Research Letters, 50: e2023GL102978, doi: 10.1029/2023GL102978. [PDF]

 

102) Davison, B.J., A.E. Hogg, R. Rigby, S. Veldhuijsen, J.M. van Wessem, M.R. van den Broeke, P.R. Holland, H.L. Selley, and P. Dutrieux, 2023.

Sea level rise from West Antarctic mass loss significantly modified by large snowfall anomalies.

Nature Communications, 14: 1479, doi: 10.1038/s41467-023-36990-3. [PDF]

 

101) Scott, W.I., S.C. Kramer, P.R. Holland, K.W. Nicholls, M.J. Siegert, and M.D. Piggott, 2023.

Towards a fully unstructured ocean model for ice shelf cavity environments: model development and verification using the Firedrake finite element framework.

Ocean Modelling, 182: 102178, doi: 10.1016/j.ocemod.2023.102178. [PDF]

 

100) Patmore, R.D., P.R. Holland, C.A. Vreugdenhil, A. Jenkins, and J.R. Taylor, 2023.

Turbulence in the ice shelf-ocean boundary current and its sensitivity to model resolution.

Journal of Physical Oceanography, 53: 613-633, doi: 10.1175/JPO-D-22-0034.1. [PDF]

 

 

2022

 

99) Holland, P.R., G.K. O’Connor, T.J. Bracegirdle, P. Dutrieux, K.A. Naughten, E.J. Steig, D.P. Schneider, A. Jenkins, and J.A. Smith, 2022.

Anthropogenic and internal drivers of wind changes over the Amundsen Sea, West Antarctica, during the 20th and 21st centuries.

The Cryosphere, 16: 5085-5105, doi:10.5194/tc-16-5085-2022. [PDF]

 

98) Silvano, A., P.R. Holland, K.A. Naughten, O. Dragomir, P. Dutrieux, A. Jenkins, Y. Si, A.L. Stewart, B. Peña Molino, G.W. Janzing, T.S. Dotto, and A.C. Naveira Garabato, 2022.

Baroclinic ocean response to climate forcing regulates decadal variability of ice-shelf melting in the Amundsen Sea.

Geophysical Research Letters, 49: e2022GL100646, doi:10.1029/2022GL100646. [PDF]

 

97) Siahaan, A., R.S. Smith, P.R. Holland, A. Jenkins, J.M. Gregory, V. Lee, P. Mathiot, A.J. Payne, J.K. Ridley, and C.G. Jones, 2022.

The Antarctic contribution to 21st century sea-level rise predicted by the UK Earth System Model with an interactive ice sheet.

The Cryosphere, 16: 4053-4086, doi:10.5194/tc-16-4053-2022. [PDF]

 

96) Li,. X., Q. Yang, L. Yu, P.R. Holland, C. Min, L. Mu, and D. Chen, 2022.

Unprecedented Arctic sea ice thickness loss and multiyear-ice volume export through Fram Strait during 2010-11.

Environmental Research Letters, 17: 095008, doi: 10.1088/1748-9326/ac8be7. [PDF]

 

95) Bradley, A.T., D.T. Bett, P. Dutrieux, J. De Rydt, and P.R. Holland, 2022.

The influence of Pine Island Ice Shelf calving on basal melting.

Journal of Geophysical Research-Oceans, 127: e2022JC018621, doi:10.1029/2022JC018621. [PDF]

 

94) Vreugdenhil, C.A., J.R. Taylor, P.E.D. Davis, K.W. Nicholls, P.R. Holland, and A. Jenkins, 2022.

The ocean boundary layer beneath Larsen C Ice Shelf: insights from large-eddy simulations with a near-wall model.

Journal of Physical Oceanography, 52: 1903-1926, doi:10.1175/JPO-D-21-0166.1. [PDF]

 

93) Durand, G. and 17 others, 2022.

Sea-level rise: From global perspectives to local services.

Frontiers in Marine Science, 8:709595. doi:10.3389/fmars.2021.709595. [PDF]

 

92) Holmes, C.R., T.J. Bracegirdle, and P.R. Holland, 2022.

Antarctic sea ice projections constrained by historical ice cover and future global temperature change.

Geophysical Research Letters, 49: e2021GL097413, doi:10.1029/2021GL097413. [PDF]

 

91) Goldberg, D.N. and P.R. Holland, 2022.

The relative impacts of initialisation and climate forcing in coupled ice sheet-ocean modelling: application to Pope, Smith and Kohler glaciers.

Journal of Geophysical Research-Earth Surface, 127: e2021JF006570, doi:10.1029/2021JF006570. [PDF]

 

90) Naughten, K.A., P.R. Holland, P. Dutrieux, S. Kimura, D.T. Bett, and A. Jenkins, 2022.

Simulated twentieth-century ocean warming in the Amundsen Sea, West Antarctica.

Geophysical Research Letters, 49: e2021GL094566, doi:10.1029/2021GL094566. [PDF]

 

89) Harrison, L.C., P.R. Holland, K.J. Heywood, K.W. Nicholls, and A.M. Brisbourne, 2022.

Sensitivity of melting, freezing and marine ice beneath Larsen C Ice Shelf to changes in ocean forcing.

Geophysical Research Letters, 49: e2021GL096914, doi:10.1029/2021GL096914. [PDF]

 

 

2021

 

88) Smith, R.S., P. Mathiot, A. Siahaan, V. Lee, S.L. Cornford, J.M. Gregory, A.J. Payne, A. Jenkins, P.R. Holland, J.K. Ridley, and C.G. Jones, 2021.

Coupling the U.K. Earth System Model to dynamic models of the Greenland and Antarctic ice sheets.

Journal of Advances in Modeling Earth Systems, 13: e2021MS002520, doi: 10.1029/2021MS002520. [PDF]

 

87) Xi, L., and 40 others, 2021.

Tropical teleconnection impacts on Antarctic climate changes.

Nature Reviews Earth and Environment, 2:680-698, doi: 10.1038/s43017-021-00204-5. [PDF]

 

86) Naughten, K.A., J. De Rydt, S.H.R. Rosier, A. Jenkins, P.R. Holland, and J.K. Ridley, 2021.

Two-timescale response of a large Antarctic ice shelf to climate change.

Nature Communications, 12:1991, doi: 10.1038/s41467-021-22259-0. [PDF]

 

85) Bull, C.Y.S, A. Jenkins, N.C. Jourdain, I. Vaňková, P.R. Holland, P. Mathiot, U. Hausmann, and J-B Sallée, 2021.

Remote control of Filchner-Ronne Ice Shelf melt rates by the Antarctic Slope Current.

Journal of Geophysical Research-Oceans, 126: e2020JC016550, doi: 10.1029/2020JC016550. [PDF]

 

84) Middleton, L., C.A. Vreugdenhil, P.R. Holland, and J.R. Taylor, 2021.

Numerical simulations of melt-driven double-diffusive fluxes in a turbulent boundary layer beneath an ice shelf.

Journal of Physical Oceanography, 51:403-418, doi:10.1175/JPO-D-20-0114.1. [PDF]

 

83) Couston, L.-A., E. Hester, B. Favier, J.R. Taylor, P.R. Holland, and A. Jenkins, 2021.

Topography generation by melting and freezing in a turbulent shear flow.

Journal of Fluid Mechanics, 911:A44, doi:10.1017/jfm.2020.1064. [PDF]

 

 

2020

 

82) Silvano, A., A. Foppert, S.R. Rintoul, P.R. Holland, T. Tamura, N. Kimura, P. Castagno, P. Falco, G. Budillon, F.A. Haumann, A.C. Naveira Garabato, and A.M. Macdonald, 2020.

Recent recovery of Antarctic Bottom Water formation in the Ross Sea driven by climate anomalies.

Nature Geoscience, 13:780-786, doi: 10.1038/s41561-020-00655-3. [PDF]

 

81) Bett, D.T., P.R. Holland, A.C. Naveira Garabato, A. Jenkins, P. Dutrieux, S. Kimura, and A. Fleming, 2020.

The impact of the Amundsen Sea freshwater balance on ocean melting of the West Antarctic Ice Sheet.

Journal of Geophysical Research-Oceans, 125: e2020JC016305, doi: 10.1029/2020JC016305. [PDF]

 

80) Dotto, T.S., A.C. Naveira Garabato, A.K. Wåhlin, S. Bacon, P.R. Holland, S. Kimura, M. Tsamados, L. Herraiz-Berreguero, O. Kalén, and A. Jenkins, 2020.

Control of the oceanic heat content of the Getz-Dotson Trough, Antarctica, by the Amundsen Sea Low.

Journal of Geophysical Research-Oceans, 125: e2020JC016113, doi: 10.1029/2020JC016113. [PDF]

 

79) Schultz, C., S.C. Doney, W.G. Zhang, H. Regan, P.R. Holland, M. Meredith, and S. Stammerjohn, 2020.

Modeling of the influence of sea ice cycle and Langmuir circulation on the upper ocean mixed layer depth and freshwater distribution at the West Antarctic Peninsula.

Journal of Geophysical Research-Oceans, 125: e2020JC016109, doi: 10.1029/2020JC016109. [PDF]

 

78) Brisbourne, A., B. Kulessa, T. Hudson, L. Harrison, P.R. Holland, A. Luckman, S. Bevan, D. Ashmore, B. Hubbard, E. Pearce, J. White, A. Booth, K. Nicholls, and A. Smith, 2020.

An updated seabed bathymetry beneath Larsen C Ice Shelf, Antarctic Peninsula.

Earth System Science Data,12:887-896, doi: 10.5194/essd-12-887-2020. [PDF]

 

77) Geraud, B.M.M., J.A. Neufeld, P.R. Holland, and M.G. Worster, 2020.

Permeability measurements using oscillatory flows.

Experiments in Fluids, 61:73, doi: 10.1007/s00348-020-2906-z. [PDF]

 

 

2019

 

76) Patmore, R.D., P.R. Holland, D.R. Munday, A.C. Naveira Garabato, D.P. Stevens, and M.P. Meredith, 2019.

Topographic control of Southern Ocean gyres and the Antarctic Circumpolar Current: A barotropic perspective.

Journal of Physical Oceanography, 49:3221-3244, doi:10.1175/JPO-D-19-0083.1. [PDF]

 

75) Kulessa, B., A.D. Booth, M. OLeary, D. McGrath, E.C. King, A.J. Luckman, P.R. Holland, D. Jansen, S.L. Bevan, S.S. Thompson, and B. Hubbard, 2019.

Seawater softening of suture zones inhibits fracture propagation in Antarctic ice shelves.

Nature Communications, 10:5491, doi:10.1038/s41467-019-13539-x. [PDF]

 

74) Dotto, T.S., A.C. Naveira Garabato, S. Bacon, P.R. Holland, S. Kimura, Y.L. Firing, M. Tsamados, A.K. Wahlin, and A. Jenkins, 2019.

Wind-driven processes controlling oceanic heat delivery to the Amundsen Sea, Antarctica.

Journal of Physical Oceanography, 49:2829-2849, doi: 10.1175/JPO-D-19-0064.1. [PDF]

 

73) Frew, R.C., D.L.Feltham, P.R. Holland, and A.A. Petty, 2019.

Sea ice-ocean feedbacks in the Antarctic shelf seas.

Journal of Physical Oceanography, 49:2423-2446, doi: 10.1175/JPO-D-18-0229.1. [PDF]

 

72) Holland, P.R., T.J. Bracegirdle, P. Dutrieux, A. Jenkins, and E.J. Steig, 2019.

West Antarctic ice loss influenced by internal climate variability and anthropogenic forcing.

Nature Geoscience, 12:718-724, doi: 10.1038/s41561-019-0420-9. [PDF]

 

71) Naveira Garabato, A.C., T.S. Dotto, J. Hooley, S. Bacon, M. Tsamados, A. Ridout, E.E. Frajka-Williams, L. Herraiz-Borreguero, P.R. Holland, H.D.B.S. Heorton, and M.P. Meredith, 2019.

Phased response of the subpolar Southern Ocean to changes in circumpolar winds.

Geophysical Research Letters, 46:6024-6033, doi: 10.1029/2019GL082850. [PDF]

 

70) Naughten, K.A., A. Jenkins, P.R. Holland, R.I. Mugford, K.W. Nicholls, and D.R. Munday, 2019.

Modeling the influence of the Weddell Polynya on the Filchner-Ronne Ice Shelf cavity.

Journal of Climate, 32:5289-5303, doi: 10.1175/JCLI-D-19-0203.1. [PDF]

 

69) Holmes, C.R., P.R. Holland, and T.J. Bracegirdle, 2019.

Compensating biases and a noteworthy success in the CMIP5 representation of Antarctic sea ice processes.

Geophysical Research Letters, 46:4299-4307, doi: 10.1029/2018GL081796. [PDF]

 

68) Cerovecki, I., A.J.S. Meijers, M.R. Mazloff, S.T. Gille, V. Tamsitt, and P.R. Holland, 2019.

The effects of enhanced sea ice export from the Ross Sea on recent cooling and freshening of the Southeast Pacific.

Journal of Climate, 32:2013-2035, doi: 10.1175/JCLI-D-18-0205.1. [PDF]

 

67) Cheng, C., A. Jenkins, P.R. Holland, Z. Wang, C. Liu, and R. Xia, 2019.

Responses of sub-ice platelet layer thickening rate and frazil-ice concentration to variations in ice-shelf water supercooling in McMurdo Sound, Antarctica.

The Cryosphere, 13:265-280, doi: 10.5194/tc-13-265-2019. [PDF]

 

 

2018

 

66) Dotto, T.S., A. Naveira Garabato, S. Bacon, M. Tsamados, P.R. Holland, J. Hooley, E. Frajka-Williams, A. Ridout, and M.P. Meredith, 2018.

Variability of the Ross Gyre, Southern Ocean: drivers and responses revealed by satellite altimetry.

Geophysical Research Letters, 45:6195-6204, doi: 10.1029/2018GL078607. [PDF]

 

65) Goldberg, D.N., K. Snow, P.R. Holland, J.R. Jordan, J.-M. Campin, P. Heimbach, R. Arthern, and A. Jenkins, 2018.

Representing grounding line migration in synchronous coupling between a marine ice sheet model and a z-coordinate ocean model.

Ocean Modelling, 125:45-60, doi: 10.1016/j.ocemod.2018.03.005. [PDF]

 

64) Jordan, J.R., P.R. Holland, D. Goldberg, K. Snow, R. Arthern, J.-M. Campin, P. Heimbach, and A. Jenkins, 2018.

Ocean-forced ice-shelf thinning in a synchronously coupled ice-ocean model.

Journal of Geophysical Research-Oceans, 123:864-882, doi: 10.1002/2017JC013251. [PDF]

 

63) Regan, H.C., P.R. Holland, M.P. Meredith, and J. Pike, 2018.

Sources, variability and fate of freshwater in the Bellingshausen Sea, Antarctica.

Deep-Sea Research I, 133:59-71, doi:10.1016/j.dsr.2018.01.005. [PDF]

 

62) Petty, A.A., J.C. Stroeve, P.R. Holland, L.N. Boisvert, A.C. Bliss, N. Kimura, and W.N. Meier, 2018.

The Arctic sea ice cover of 2016: A year of record-low highs and higher-than-expected lows.

The Cryosphere, 12:433-452, doi:10.5194/tc-12-433-2018. [PDF]

 

 

2017

 

61) Kimura, S., A. Jenkins, H. Regan, P.R. Holland, K.M. Assmann, D.B. Whitt, M. Van Wessem, W.J. van de Berg, C.H. Reijmer, and P. Dutrieux, 2017.

Oceanographic controls on the variability of ice-shelf basal melting and circulation of glacial meltwater in the Amundsen Sea Embayment, Antarctica.

Journal of Geophysical Research-Oceans, 122:10,131-10,155, doi:10.1002/2017JC012926. [PDF]

 

60) Snow, K., D.N. Goldberg, P.R. Holland, J.R. Jordan, R.J. Arthern, and A. Jenkins, 2017.

The response of ice sheets to climate variability.

Geophysical Research Letters, 44:11,878-11,885, doi:10.1002/2017GL075745. [PDF]

 

59) Holland, P.R., 2017.

The transient response of ice-shelf melting to ocean change.

Journal of Physical Oceanography, 47:2101-2114, doi:10.1175/JPO-D-17-0071.1. [PDF]

 

58) Pope, J.O., P.R. Holland, A. Orr, G.J. Marshall, and T. Philips, 2017.

The impacts of El Nino on the observed sea ice budget of West Antarctica.

Geophysical Research Letters, 44:6200-6208, doi:10.1002/2017GL073414. [PDF]

 

57) Ashmore, D.W., B. Hubbard, A. Luckman, B. Kulessa, S. Bevan, A. Booth, P. Kuipers Munneke, M. O Leary, H. Sevestre, and P.R. Holland, 2017.

Ice and firn heterogeneity within Larsen C Ice Shelf from borehole optical televiewing.

Journal of Geophysical Research-Earth Surface, 122:1139-1153, doi:10.1002/2016JF004047. [PDF]

 

 

2016

 

56) Dinniman, M.S., X.S Asay-Davis, B.K. Galton-Fenzi, P.R. Holland, A. Jenkins, and R. Timmermann, 2016.

Modeling ice shelf/ocean interaction in Antarctica: A review.

Oceanography, 29:144-153, doi:10.5670/oceanog.2016.106. [PDF]

 

55) Kwok, R., J.C. Comiso, T. Lee, and P.R. Holland, 2016.

Linked trends in the south Pacific sea-ice edge and Southern Oscillation Index.

Geophysical Research Letters, 43:10295-10302, doi:10.1002/2016GL070655. [PDF]

 

54) Lecomte, O., H. Goosse, T. Fichefet, P.R. Holland, P. Uotila, V. Zunz, and N. Kimura, 2016.

Impact of surface wind biases on the Antarctic sea ice concentration budget in climate models.

Ocean Modelling, 105:60-70, doi:10.1016/j.ocemod.2016.08.001. [PDF]

 

53) Asay-Davis, X.S., S.L. Cornford, G. Durand, B.K. Galton-Fenzi, R.M. Gladstone, G.H. Gudmundsson, T. Hattermann, D.M. Holland, D. Holland, P.R. Holland, D.F. Martin, P. Mathiot, F. Pattyn, and H. Seroussi, 2016.

Experimental design for three interrelated marine ice sheet and ocean model intercomparison projects: MISMIP v3 (MISMIP+), ISOMIP v2 (ISOMIP+) and MISOMIP v1 (MISOMIP1).

Geoscientific Model Development, 9:2471-2497, doi: 10.5194/gmd-9-2471-2016. [PDF]

 

52) Cook, A.J., P.R. Holland, M.P. Meredith, T. Murray, A. Luckman, and D.G. Vaughan, 2016.

Ocean forcing of glacier retreat in the western Antarctic Peninsula.

Science, 353:283-286, doi: 10.1126/science.aae0017. [PDF]

 

51) Holland, P.R., and N. Kimura, 2016.

Observed concentration budgets of Arctic and Antarctic sea ice.

Journal of Climate, 29:5241-5249, doi: 10.1175/JCLI-D-16-0121.1. [PDF]

 

50) Abernathey, R.P., I. Cerovecki, P.R. Holland, E. Newsom, M. Mazloff, and L.D. Talley, 2016.

Water-mass transformation by sea ice in the upper branch of the Southern Ocean overturning.

Nature Geoscience, 9:596-601, doi:10.1038/ngeo2749. [PDF]

 

49) Naveira Garabato, A.C., J.D. Zika, L. Jullion, P.J. Brown, P.R. Holland, M.P. Meredith, and S. Bacon, 2016.

The thermodynamic balance of the Weddell Gyre.

Geophysical Research Letters, 43:317-325, doi: 10.1002/2015GL066658. [PDF]

 

 

2015

 

48) Kjellsson, J., P.R. Holland, G.J. Marshall, P. Mathiot, Y. Aksenov, A.C. Coward, S. Bacon, A.P. Megann, and J. Ridley, 2015.

Model sensitivity of the Weddell and Ross seas, Antarctica, to vertical mixing and freshwater forcing.

Ocean Modelling, 94:141-152, doi: 10.1016/j.ocemod.2015.08.003. [PDF]

 

47) Wilchinsky, A.V., H.D.B.S. Heorton, D.L. Feltham, and P.R. Holland, 2015.

Study of the impact of ice formation in leads upon the sea ice pack mass balance using a new frazil and grease ice parameterisation.

Journal of Physical Oceanography, 45:2025-2047, doi:10.1175/JPO-D-14-0184.1. [PDF]

 

46) Jansen, D., A. J. Luckman, A. Cook, S. Bevan, B. Kulessa, B. Hubbard, and P. R. Holland, 2015.

Newly developing rift in Larsen C Ice Shelf presents significant risk to stability.

The Cryosphere, 9:1223-1227, doi:10.5194/tc-9-1223-2015. [PDF]

 

45) Holland, P.R., A. Brisbourne, H.F.J. Corr, D. McGrath, K. Purdon, J. Paden, H.A. Fricker, F.S. Paolo, and A.H. Fleming, 2015.

Oceanic and atmospheric forcing of Larsen C Ice-Shelf thinning.

The Cryosphere, 9:1005-1024, doi:10.5194/tc-9-1005-2015. [PDF]

 

44) Jordan, J.R., S. Kimura, P.R. Holland, A. Jenkins, and M.D. Piggott, 2015.

On the conditional frazil ice instability in seawater.

Journal of Physical Oceanography, 45:1121-1138, doi:10.1175/JPO-D-14-0159.1. [PDF]

 

 

2014

 

43) Kimura, S, P.R. Holland, A. Jenkins, and M. Piggott, 2014.

The effect of meltwater plumes on the melting of a vertical glacier face.

Journal of Physical Oceanography, 44:3099-3117, doi:10.1175/JPO-D-13-0219.1. [PDF]

 

42) Darelius, E., K. Makinson, K. Daae, I. Fer, P.R. Holland, and K.W. Nicholls, 2014.

Hydrography and circulation in the Filchner Depression, Weddell Sea, Antarctica.

Journal of Geophysical Research-Oceans, 119:5797-5814, doi:10.1002/2014JC010225. [PDF]

 

41) Rye, C.D., A.C. Naviera Garabato, P.R. Holland, M.P. Meredith, A.J.G. Nurser, C.W. Hughes, A.C. Coward and D.J. Webb, 2014.

Rapid sea-level rise along the Antarctic margins in response to increased glacial discharge.

Nature Geoscience, 7:732-735, doi:10.1038/ngeo2230. [PDF]

 

40) Holland, P.R., 2014.

The seasonality of Antarctic sea ice trends.

Geophysical Research Letters, 41:4230-4237, doi:10.1002/2014GL060172. [PDF]

 

39) Jullion, L., A.C. Naveira Garabato, S. Bacon, M.P. Meredith, P.J. Brown, S. Torres-Valdes, K.G. Speer, P.R. Holland, J. Dong, D. Bakker, M. Hoppema, B. Loose, H.J. Venables, W.J. Jenkins, M. Messias and E. Fahrbach, 2014.

The contribution of the Weddell Gyre to the lower limb of the meridional overturning circulation.

Journal of Geophysical Research-Oceans, 119:3357-3377, doi:10.1002/2013JC009725. [PDF]

 

38) Brown, P.J., M.P. Meredith, L. Juillion, A. Naveira Garabato, S. Torres Valdes, P.R. Holland, M.J. Leng, and H. Venables, 2014.

Freshwater fluxes in the Weddell Gyre: Results from d¹⁸O.

Philosophical Transactions of the Royal Society A, 372:20130298. doi: 10.1098/rsta.2013.0298. [PDF]

 

37) Uotila, P., P.R. Holland, T. Vihma, S.J. Marsland, and N. Kimura, 2014.

Is realistic Antarctic sea ice extent in climate models the result of excessive ice drift?

Ocean Modelling, 79:33-42. doi: 10.1016/j.ocemod.2014.04.004. [PDF]

 

36) De Rydt, J., P.R. Holland, P. Dutrieux, and A. Jenkins, 2014.

Geometric and oceanographic controls on melting beneath Pine Island Glacier.

Journal of Geophysical Research-Oceans, 119:2420-2438. doi: 10.1002/2013JC009513. [PDF]

 

35) Holland, P.R., N. Bruneau, C. Enright, N.T. Kurtz, M. Losch and R. Kwok, 2014.

Modelled trends in Antarctic sea ice thickness.

Journal of Climate, 27:3784-3801. doi: 10.1175/JCLI-D-13-00301.1. [PDF]

 

34) Petty, A.A., P.R. Holland, and D.L. Feltham, 2014.

Sea ice and the ocean mixed layer over the Antarctic shelf seas.

The Cryosphere, 8:761-783. doi:10.5194/tc-8-761-2014. [PDF]

 

33) Stern, A.A., D.M. Holland, P.R. Holland, A. Jenkins and J. Sommeria, 2014.

The effect of geometry on ice-shelf ocean cavity ventilation: a laboratory experiment.

Experiments in Fluids, 55:1719. doi:10.1007/s00348-014-1719-3. [PDF]

 

32) McGrath, D., K. Steffen, P.R. Holland, T. Scambos, H. Rajaram, W. Abdalati, E. Rignot, 2014.

The structure and effect of suture zones in the Larsen C Ice Shelf, Antarctica.

Journal of Geophysical Research-Earth Surface, 119:588-602. doi:10.1002/2013JF002935. [PDF]

 

31) Jordan, J.R., P.R. Holland, A. Jenkins, M.D. Piggott and S. Kimura, 2014.

Modelling ice-ocean interaction in ice shelf crevasses.

Journal of Geophysical Research-Oceans, 119:995-1008. doi:10.1002/2013JC009208. [PDF]

 

30) Holland, P.R., R.E. Hewitt and M.M. Scase, 2014.

Wave breaking in dense plumes.

Journal of Physical Oceanography, 44:790-800. doi: 10.1175/JPO-D-13-0110.1. [PDF]

 

29) Dutrieux, P., J. De Rydt, A. Jenkins, P.R. Holland, H. Kyung Ha, S. Hoon Lee, E.J. Steig, Q. Ding, E.P. Abrahamsen and M. Schroeder, 2014.

Strong sensitivity of Pine Island ice shelf melting to climatic variability.

Science, 343:174-178. doi: 10.1126/science.1244341. [PDF]

 

28) Brisbourne, A.M., A.M. Smith, E.C. King, K.W. Nicholls, P.R. Holland, and K. Makinson, 2014.

Seabed topography beneath Larsen C Ice Shelf from seismic soundings.

The Cryosphere, 8:1-13. doi:10.5194/tc-8-1-2014. [PDF]

 

 

2013

 

27) Millgate, T., P.R. Holland, A. Jenkins and H.L. Johnson, 2013.

The effect of basal channels on oceanic ice-shelf melting.

Journal of Geophysical Research-Oceans, 118:6951-6964. doi:10.1002/2013JC009402. [PDF]

 

26) Arthun, M., P.R. Holland, K.W. Nicholls and D.L. Feltham, 2013.

Eddy-driven exchange between the open ocean and a sub-ice shelf cavity.

Journal of Physical Oceanography, 26:2372-2387. doi:10.1175/JPO-D-13-0137.1. [PDF]

 

25) Jullion, L., A.C. Naveira Garabato, M.P. Meredith, P.R. Holland, P. Courtois and B.A. King, 2013.

Decadal freshening of the Antarctic Bottom Water exported from the Weddell Sea.

Journal of Climate, 26:8111-8125. doi:10.1175/JCLI-D-12-00765.1. [PDF]

 

24) Dutrieux, P., D.G. Vaughan, H.F.J. Corr, A. Jenkins, P.R. Holland, I. Joughin and A.H. Fleming, 2013.

Pine Island Glacier ice shelf melt distributed at kilometre scales.

The Cryosphere, 7:1543-1555. doi:10.5194/tc-7-1543-2013. [PDF]

 

23) Jansen, D., A. Luckman, B. Kulessa, P.R. Holland and E.C. King, 2013.

Marine ice formation in a suture zone on the Larsen C Ice Shelf and its influence on ice shelf dynamics.

Journal of Geophysical Research-Earth Surface, 118:1628-1640. doi: 10.1002/jgrf.20120. [PDF]

 

22) Petty, A.A., D.L. Feltham, and P.R. Holland, 2013.

Impact of atmospheric forcing on Antarctic continental-shelf water masses.

Journal of Physical Oceanography, 43:920-940. doi:10.1175/JPO-D-12-0172.1. [PDF]

 

21) Kimura, S., A.S. Candy, P.R. Holland, M.D. Piggott and A. Jenkins, 2013.

Adaptation of an unstructured-mesh, finite-element ocean model to the simulation of ocean circulation beneath ice shelves.

Ocean Modelling, 67:39-51. doi:10.1016/j.ocemod.2013.03.004. [PDF]

 

20) Graham, J.A., K.J. Heywood, C.P. Chavanne and P.R. Holland, 2013.

Seasonal variability of water masses and transport on the Antarctic continental shelf and slope in the southeastern Weddell Sea.

Journal of Geophysical Research-Oceans, 118: 2201-2214. doi:10.1002/jgrc.20174. [PDF]

 

 

2012

 

19) Holland, P.R. and R. Kwok, 2012.

Wind-driven trends in Antarctic sea-ice drift.

Nature Geoscience, 5: 872-875. doi:10.1038/ngeo1627. [PDF]

 

18) Gladish, C.V., D.M. Holland, P.R. Holland, and S.F. Price, 2012.

Ice shelf basal channels in a coupled ice-ocean model.

Journal of Glaciology, 58: 1227-1244. doi: 10.3189/2012JoG12J003. [PDF]

 

 

2011

 

17) Holland, P.R., 2011.

Oscillating dense plumes.

Journal of Physical Oceanography, 41: 1465-1483. doi: 10.1175/2011JPO4532.1. [PDF]

 

16) Holland, P.R., H.F.J. Corr, H.D. Pritchard, D.G. Vaughan, R.J. Arthern, A. Jenkins, and M. Tedesco, 2011.

The air content of Larsen Ice Shelf.

Geophysical Research Letters, 38: L10503. doi:10.1029/2011GL047245. [PDF]

 

15) Makinson, K., P.R. Holland, A. Jenkins, K.W. Nicholls, and D.M. Holland, 2011.

Influence of tides on melting and freezing beneath Filchner-Ronne Ice Shelf, Antarctica.

Geophysical Research Letters, 38: L06601. doi:10.1029/2010GL046462. [PDF]

 

 

2010

 

14) King, J.C., M.J. Doble, and P.R. Holland, 2010.

Analysis of a rapid sea ice retreat event in the Bellingshausen Sea.

Journal of Geophysical Research-Oceans, 115: C12030. doi:10.1029/2010JC006101. [PDF]

 

13) Holland, P.R., A. Jenkins, and D.M. Holland, 2010.

Ice and ocean processes in the Bellingshausen Sea, Antarctica.

Journal of Geophysical Research-Oceans, 115: C05020. doi:10.1029/2008JC005219. [PDF]

 

 

2009

 

12) Holland, P.R., H.F.J. Corr, D.G. Vaughan, A. Jenkins and P. Skvarca, 2009.

Marine ice in Larsen Ice Shelf.

Geophysical Research Letters, 36: L11604. doi:10.1029/2009GL038162. [PDF]

 

 

2008

 

11) Holland, P.R., 2008.

A model of tidally dominated ocean processes near ice shelf grounding lines.

Journal of Geophysical Research-Oceans, 113: C11002. doi:10.1029/2007JC004576. [PDF]

 

10) Holland, P.R., A. Jenkins, and D.M. Holland, 2008.

The response of ice shelf basal melting to variations in ocean temperature.

Journal of Climate, 21:2558-2572. [PDF]

 

 

2007

 

9) Payne, A.J., P.R. Holland, A.P. Shepherd, I.C. Rutt, A. Jenkins, and I. Joughin, 2007.

Numerical modelling of ocean-ice interactions under Pine Island Bay's ice shelf.

Journal of Geophysical Research-Oceans, 112: C10019. doi:10.1029/2006JC003733. [PDF]

 

8) Wilchinsky, A.V., D.L. Feltham and P.R. Holland, 2007.

The effect of a new drag law parameterization on Ice Shelf Water plume dynamics.

Journal of Physical Oceanography, 37:1778-1792. [PDF]

 

7) Holland, P.R., D.L. Feltham and S.F. Daly, 2007.

On the Nusselt number for frazil ice growth - a correction to "Frazil evolution in channels" by Lars Hammar and Hung-Tao Shen.

Journal of Hydraulic Research, 45:421-424. [PDF]

 

6) Holland, P.R., D.L. Feltham and A. Jenkins, 2007.

Ice Shelf Water plume flow beneath Filchner-Ronne Ice Shelf, Antarctica.

Journal of Geophysical Research-Oceans, 112: C05044. doi:10.1029/2006JC003915. [PDF]

 

 

≤ 2006

 

5) Holland, P.R. and D.L. Feltham, 2006.

The effects of rotation and ice shelf topography on frazil-laden Ice Shelf Water plumes.

Journal of Physical Oceanography, 36: 2312-2327. [PDF]

 

4) Holland, P.R. and D.L. Feltham, 2005.

Frazil dynamics and precipitation in a water column with depth-dependent supercooling.

Journal of Fluid Mechanics, 530: 101-124. [PDF]

 

3) Holland, P.R. and A. Kay, 2003.

A review of the physics and ecological implications of the thermal bar circulation.

Limnologica, 33: 153-162. [PDF]

 

2) Holland, P.R., A. Kay and V.Botte, 2003.

Numerical modelling of the thermal bar and its ecological consequences in a river-dominated lake.

Journal of Marine Systems, 43: 61-81. [PDF]

 

1) Holland, P.R., A. Kay and V.Botte, 2001.

A numerical study of the dynamics of the riverine thermal bar in a deep lake.

Environmental Fluid Mechanics, 1: 311-332. [PDF]

 

 

Everything that is not a peer-reviewed journal article about science

 

IPCC, 2019.

IPCC Special Report on the Ocean and Cryosphere in a Changing Climate. [PDF]

 

Meredith, M.P. et al., 2018.

The state of the polar oceans 2018

Report for the United Kingdom Foreign and Commonwealth Office as part of the UK-Norway Memorandum of Understanding on Polar Research and Cultural Heritage. [PDF]

 

Turner, J., et al., 2017.

Solve Antarctica’s sea-ice puzzle.

Nature, 547:275-277 (comment). doi:10.1038/547275a. [PDF]

 

Holland P.R., 2010.

Warm bath for an ice sheet.

Nature Geoscience, 3:147-148 (news & views). doi:10.1038/ngeo801. [PDF]

 

Holland P.R., D.L. Feltham and A. Jenkins, 2006.

Validity of the Ice Shelf Water plume concept under Filchner-Ronne Ice Shelf.

Proceedings of the 20th Forum for Research into Ice Shelf Processes (FRISP report 17), British Antarctic Survey, Cambridge, UK, June 2006. [PDF]

 

Holland P.R. and D.L. Feltham, 2006.

Rotating Ice Shelf Water plumes.

Proceedings of the 19th Forum for Research into Ice Shelf Processes (FRISP report 17), Geophysical Institute, University of Bergen, Norway, June 2005. [PDF]

 

Holland P.R. and D.L. Feltham, 2005.

Precipitation of frazil from Ice Shelf Water plumes.

Proceedings of the 18th Forum for Research into Ice Shelf Processes (FRISP report 16), Alfred Wegener Istitute, Helgoland, Germany, October 2004. [PDF]

 

Holland P.R. and D.L. Feltham, 2004.

Development of frazil modelling in Ice Shelf Water plumes.

Proceedings of the 17th Forum for Research into Ice Shelf Processes (FRISP report 15), British Antarctic Survey, Cambridge, UK, June 2003. [PDF]

 

Holland P.R., A. Kay and V. Botte, 2003.

Numerical model of the thermal bar and its ecological consequences in a river-dominated lake.

Proceedings of the 7th Workshop on Physical Processes in Natural Waters, Karelian Scientific Centre, Petrozavodsk, Russian Academy of Sciences, 168pp. [PDF]

 

Holland, P.R., 2003.

Coupling plankton population models to hydrodynamical studies.

Mathematics Today, 39(6): 185-187. [PDF]

 

Holland, P.R., 2001.

Numerical Modelling of the Riverine Thermal Bar.

Ph.D. Thesis, Department of Mathematical Sciences, Loughborough University, UK. [PDF]

 

Holland P.R., V. Botte and A. Kay, 2000.

The Riverine Thermal Bar.

Proceedings of the 5th Workshop on Physical Processes in Natural Waters, Limnological Institute, Siberian Branch, Russian Academy of Sciences, Preprint No. 4, 120pp.

 

Holland, P.R., 2000.

Getting to the bottom of Lake Baikal.

NERC News, 35pp, Winter 2000.