Plymouth Marine Science Electronic Archive (PlyMSEA)
Produced by:
Plymouth Marine Science Electronic Archive (PlyMSEA)
Produced by:
 | Up a level |
Atkinson, A, Hill, SL, Reiss, CS, Pakhomov, EA, Beaugrand, G, Tarling, GA, Yang, G, Steinberg, DK, Schmidt, K, Edwards, M, Rombolá, E and Perry, FA 2021 Stepping stones towards Antarctica: Switch to southern spawning grounds explains an abrupt range shift in krill. Global Change Biology. https://doi.org/10.1111/gcb.16009
Queiros, AM, Talbot, E, Beaumont, NJ, Somerfield, PJ, Kay, S, Pascoe, CK, Dedman, S, Fernandes, JA, Jueterbock, A, Miller, PI, Sailley, SF, Sara, G, Carr, LM, Austen, MC, Widdicombe, S, Rilov, G, Levin, LA, Hull, SC, Walmsley, SF and Nic Aonghusa, C 2021 Bright spots as climate‐smart marine spatial planning tools for conservation and blue growth. Global Change Biology, 27 (21). 5514-5531. https://doi.org/10.1111/gcb.15827
Guy-Haim, T, Lyons, D, Kotta, J, Ojaveer, H, Queiros, AM, Chatzinikolaou, E, Arvanitidis, C, Como, S, Magni, P, Blight, AJ, Orav-Kotta, H and Somerfield, PJ 2018 Diverse effects of invasive ecosystem engineers on marine biodiversity and ecosystem functions – a global review and meta-analysis. Global Change Biology. https://doi.org/10.1111/gcb.14007
Martinez, E, Raitsos, DE and Antoine, D 2016 Warmer, deeper and greener mixed layers in the north Atlantic subpolar gyre over the last 50 years.. Global Change Biology. https://doi.org/10.1111/gcb.13100
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Kléparski, L, Beaugrand, G, Edwards, M and Ostle, C 2023 Phytoplankton life strategies, phenological shifts and climate change in the North Atlantic Ocean from 1850 to 2100. Global Change Biology, 29 (13). 3833-3849. https://doi.org/10.1111/gcb.16709
Atkinson, A, Hill, SL, Reiss, CS, Pakhomov, EA, Beaugrand, G, Tarling, GA, Yang, G, Steinberg, DK, Schmidt, K, Edwards, M, Rombolá, E and Perry, FA 2021 Stepping stones towards Antarctica: Switch to southern spawning grounds explains an abrupt range shift in krill. Global Change Biology. https://doi.org/10.1111/gcb.16009
Hawkins, SJ, Burrows, MT and Mieszkowska, N 2022 Shoreline sentinels of global change show the consequences of extreme events. Global Change Biology, 29 (1). 7-9. https://doi.org/10.1111/gcb.16477
Davies, TW and Smyth, TJ 2018 Why artificial light at night should be a focus for global change research in the 21st century. Global Change Biology. https://doi.org/10.1111/gcb.13927
Marangoni, LFB, Davies, T, Smyth, TJ, Rodriguez, A, Hamann, M, Duarte, C, Pendoley, K, Berge, J, Maggi, E and Levy, O 2022 Impacts of artificial light at night in marine ecosystems—A review. Global Change Biology. https://doi.org/10.1111/gcb.16264
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Saha, M, Barboza, FR, Somerfield, PJ, Al‐Janabi, B, Beck, M, Brakel, J, Ito, M, Pansch, C, Nascimento‐Schulze, JC, Jakobsson Thor, S, Weinberger, F and Sawall, Y 2019 Response of foundation macrophytes to near‐natural simulated marine heatwaves. Global Change Biology. https://doi.org/10.1111/gcb.14801
Spencer, M, Mieszkowska, N, Robinson, LA, Simpson, SD, Burrows, MT, Birchenough, SNR, Capasso, E, Cleall-Harding, P, Crummy, J, Duck, C, Eloire, D, Frost, MT, Hall, AJ, Hawkins, SJ, Johns, DG, Sims, DW, Smyth, TJ and Frid, CLJ 2012 Region-wide changes in marine ecosystem dynamics: state-space models to distinguish trends from step changes. Global Change Biology, 18 (4). 1270 - 1281. https://doi.org/10.1111/j.1365-2486.2011.02620.x
Item not available from this repository.
Schmidt, K, Graeve, M, Hoppe, CJM, Torres‐Valdes, S, Welteke, N, Whitmore, LM, Anhaus, P, Atkinson, A, Belt, ST, Brenneis, T, Campbell, R, Castellani, G, Copeman, LA, Flores, H, Fong, AA, Hildebrandt, N, Kohlbach, D, Nielsen, JM, Parrish, CC, Rad‐Menéndez, C, Rokitta, SD, Tippenhauer, S and Zhuang, Y 2023 Essential omega‐3 fatty acids are depleted in sea ice and pelagic algae of the Central Arctic Ocean. Global Change Biology, 30 (1). https://doi.org/10.1111/gcb.17090
Lyons, D, Arvanitidis, C, Blight, AJ, Chatzinikolaou, E, Guy-Haim, T, Kotta, J, Orav-Kotta, H, Queiros, AM, Rilov, G, Somerfield, PJ and Crowe, TP 2014 Macroalgal blooms alter community structure and primary productivity in marine ecosystems. Global Change Biology. https://doi.org/10.1111/gcb.12644
Item not available from this repository.
Kléparski, L, Beaugrand, G, Ostle, C, Edwards, M, Skogen, MD, Djeghri, N and Hátún, H 2024 Ocean climate and hydrodynamics drive decadal shifts in Northeast Atlantic dinoflagellates. Global Change Biology, 30 (2). https://doi.org/10.1111/gcb.17163
Item not available from this repository.
Guy-Haim, T, Lyons, D, Kotta, J, Ojaveer, H, Queiros, AM, Chatzinikolaou, E, Arvanitidis, C, Como, S, Magni, P, Blight, AJ, Orav-Kotta, H and Somerfield, PJ 2018 Diverse effects of invasive ecosystem engineers on marine biodiversity and ecosystem functions – a global review and meta-analysis. Global Change Biology. https://doi.org/10.1111/gcb.14007
Hawkins, SJ, Burrows, MT and Mieszkowska, N 2022 Shoreline sentinels of global change show the consequences of extreme events. Global Change Biology, 29 (1). 7-9. https://doi.org/10.1111/gcb.16477
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Guy-Haim, T, Lyons, D, Kotta, J, Ojaveer, H, Queiros, AM, Chatzinikolaou, E, Arvanitidis, C, Como, S, Magni, P, Blight, AJ, Orav-Kotta, H and Somerfield, PJ 2018 Diverse effects of invasive ecosystem engineers on marine biodiversity and ecosystem functions – a global review and meta-analysis. Global Change Biology. https://doi.org/10.1111/gcb.14007
Kléparski, L, Beaugrand, G, Ostle, C, Edwards, M, Skogen, MD, Djeghri, N and Hátún, H 2024 Ocean climate and hydrodynamics drive decadal shifts in Northeast Atlantic dinoflagellates. Global Change Biology, 30 (2). https://doi.org/10.1111/gcb.17163
Item not available from this repository.
Queiros, AM, Talbot, E, Beaumont, NJ, Somerfield, PJ, Kay, S, Pascoe, CK, Dedman, S, Fernandes, JA, Jueterbock, A, Miller, PI, Sailley, SF, Sara, G, Carr, LM, Austen, MC, Widdicombe, S, Rilov, G, Levin, LA, Hull, SC, Walmsley, SF and Nic Aonghusa, C 2021 Bright spots as climate‐smart marine spatial planning tools for conservation and blue growth. Global Change Biology, 27 (21). 5514-5531. https://doi.org/10.1111/gcb.15827
McGinty, N, Barton, AD, Record, NR, Finkel, ZV, Johns, DG, Stock, CA and Irwin, AJ 2020 Anthropogenic climate change impacts on copepod trait biogeography. Global Change Biology, 27 (7). 1431-1442. https://doi.org/10.1111/gcb.15499
Otero, J, L'Abée-Lund, JH, Castro-Santos, T, Leonardsson, K, Storvik, GO, Jonsson, B, Dempson, B, Russell, IC, Jensen, AJ, Baglinière, J-L, Dionne, M, Armstrong, JD, Romakkaniemi, A, Letcher, BH, Kocik, JF, Erkinaro, J, Poole, R, Rogan, G, Lundqvist, H, MacLean, JC, Jokikokko, E, Arnekleiv, JV, Kennedy, RJ, Niemelä, E, Caballero, P, Music, PA, Antonsson, T, Gudjonsson, S, Veselov, AE, Lamberg, A, Groom, SB, Taylor, BH, Taberner, M, Dillane, M, Arnason, F, Horton, G, Hvidsten, NA, Jonsson, IR, Jonsson, N, McKelvey, S, Naesje, TF, Skaala, Ø, Smith, GW, Saegrov, H, Stenseth, NC and Vøllestad, LA 2013 Basin-scale phenology and effects of climate variability on global timing of initial seaward migration of Atlantic salmon (Salmo salar). Global Change Biology, 20 (1). 61-75. https://doi.org/10.1111/gcb.12363
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Schmidt, K, Graeve, M, Hoppe, CJM, Torres‐Valdes, S, Welteke, N, Whitmore, LM, Anhaus, P, Atkinson, A, Belt, ST, Brenneis, T, Campbell, R, Castellani, G, Copeman, LA, Flores, H, Fong, AA, Hildebrandt, N, Kohlbach, D, Nielsen, JM, Parrish, CC, Rad‐Menéndez, C, Rokitta, SD, Tippenhauer, S and Zhuang, Y 2023 Essential omega‐3 fatty acids are depleted in sea ice and pelagic algae of the Central Arctic Ocean. Global Change Biology, 30 (1). https://doi.org/10.1111/gcb.17090
Lucas, RM, German, S, Metternicht, G, Schmidt, RK, Owers, CJ, Prober, SM, Richards, AE, Tetreault‐Campbell, S, Williams, KJ, Mueller, N, Tissott, B, Chua, SMT, Cowood, A, Hills, T, Gunawardana, D, McIntyre, AD, Chognard, S, Hurford, C, Planque, C, Punalekar, S, Clewley, D, Sonnenschein, R, Murray, NJ, Manakos, I, Blonda, P, Owers, K, Roxburgh, S, Kay, H, Bunting, P and Horton, C 2022 A globally relevant change taxonomy and evidence‐based change framework for land monitoring. Global Change Biology. https://doi.org/10.1111/gcb.16346
Raitsos, DE, Pradhan, Y, Lavender, SJ, Hoteit, I, McQuatters-Gollop, A, Reid, PC and Richardson, AJ 2014 From silk to satellite: half a century of ocean colour anomalies in the Northeast Atlantic. Global Change Biology. https://doi.org/10.1111/gcb.12457
Item not available from this repository.
Lucas, RM, German, S, Metternicht, G, Schmidt, RK, Owers, CJ, Prober, SM, Richards, AE, Tetreault‐Campbell, S, Williams, KJ, Mueller, N, Tissott, B, Chua, SMT, Cowood, A, Hills, T, Gunawardana, D, McIntyre, AD, Chognard, S, Hurford, C, Planque, C, Punalekar, S, Clewley, D, Sonnenschein, R, Murray, NJ, Manakos, I, Blonda, P, Owers, K, Roxburgh, S, Kay, H, Bunting, P and Horton, C 2022 A globally relevant change taxonomy and evidence‐based change framework for land monitoring. Global Change Biology. https://doi.org/10.1111/gcb.16346
Bedford, J, Ostle, C, Johns, DG, Atkinson, A, Best, M, Bresnan, E, Machairopoulou, M, Graves, CA, Devlin, M and McQuatters-Gollop et al, A 2020 Lifeform indicators reveal large-scale shifts in plankton across the North-West European shelf. Global Change Biology, 26. 3482-3497. https://doi.org/10.1111/gcb.15066
Bedford, J, Ostle, C, Johns, DG, Atkinson, A, Best, M, Bresnan, E, Machairopoulou, M, Graves, CA, Devlin, M, Milligan, AJ, Pitois, SG, Mellor, A, Tett, P and McQuatters‐Gollop, A 2020 Lifeform indicators reveal large‐scale shifts in plankton across the North‐West European shelf. Global Change Biology, 26 (6). 3482-3497. https://doi.org/10.1111/gcb.15066
Kléparski, L, Beaugrand, G, Edwards, M and Ostle, C 2023 Phytoplankton life strategies, phenological shifts and climate change in the North Atlantic Ocean from 1850 to 2100. Global Change Biology, 29 (13). 3833-3849. https://doi.org/10.1111/gcb.16709
Kléparski, L, Beaugrand, G, Ostle, C, Edwards, M, Skogen, MD, Djeghri, N and Hátún, H 2024 Ocean climate and hydrodynamics drive decadal shifts in Northeast Atlantic dinoflagellates. Global Change Biology, 30 (2). https://doi.org/10.1111/gcb.17163
Item not available from this repository.
McGinty, N, Barton, AD, Record, NR, Finkel, ZV, Johns, DG, Stock, CA and Irwin, AJ 2020 Anthropogenic climate change impacts on copepod trait biogeography. Global Change Biology, 27 (7). 1431-1442. https://doi.org/10.1111/gcb.15499
Queiros, AM, Talbot, E, Beaumont, NJ, Somerfield, PJ, Kay, S, Pascoe, CK, Dedman, S, Fernandes, JA, Jueterbock, A, Miller, PI, Sailley, SF, Sara, G, Carr, LM, Austen, MC, Widdicombe, S, Rilov, G, Levin, LA, Hull, SC, Walmsley, SF and Nic Aonghusa, C 2021 Bright spots as climate‐smart marine spatial planning tools for conservation and blue growth. Global Change Biology, 27 (21). 5514-5531. https://doi.org/10.1111/gcb.15827
Schmidt, K, Birchill, AJ, Atkinson, A, Brewin, RJW, Clark, JR, Hickman, AE, Johns, DG, Lohan, MC, Milne, A, Pardo, S, Polimene, L, Smyth, TJ, Tarran, GA, Widdicombe, CE, Woodward, EMS and Ussher, SJ 2020 Increasing picocyanobacteria success in shelf waters contributes to long-term food web degradation. Global Change Biology. 1-14. https://doi.org/10.1111/gcb.15161
Schmidt, K, Birchill, AJ, Atkinson, A, Brewin, RJW, Clark, JR, Hickman, AE, Johns, DG, Lohan, MC, Milne, A, Pardo, S, Polimene, L, Smyth, TJ, Tarran, GA, Widdicombe, CE, Woodward, EMS and Ussher, SJ 2020 Increasing picocyanobacteria success in shelf waters contributes to long-term food web degradation. Global Change Biology. https://doi.org/10.1111/gcb.15161
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Marangoni, LFB, Davies, T, Smyth, TJ, Rodriguez, A, Hamann, M, Duarte, C, Pendoley, K, Berge, J, Maggi, E and Levy, O 2022 Impacts of artificial light at night in marine ecosystems—A review. Global Change Biology. https://doi.org/10.1111/gcb.16264
McGinty, N, Barton, AD, Record, NR, Finkel, ZV, Johns, DG, Stock, CA and Irwin, AJ 2020 Anthropogenic climate change impacts on copepod trait biogeography. Global Change Biology, 27 (7). 1431-1442. https://doi.org/10.1111/gcb.15499
Cripps, G, Lindeque, PK and Flynn, KJ 2014 Have we been underestimating the effects of ocean acidification in zooplankton?. Global Change Biology. n/a-n/a. https://doi.org/10.1111/gcb.12582
Item not available from this repository.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
McGinty, N, Barton, AD, Record, NR, Finkel, ZV, Johns, DG, Stock, CA and Irwin, AJ 2020 Anthropogenic climate change impacts on copepod trait biogeography. Global Change Biology, 27 (7). 1431-1442. https://doi.org/10.1111/gcb.15499
Montero, JT, Lima, M, Estay, SA and Rezende, EL 2020 Spatial and temporal shift in the factors affecting the population dynamics of Calanus copepods in the North Sea.. Global Change Biology, 27 (3). 576-586. https://doi.org/10.1111/gcb.15394
Schmidt, K, Birchill, AJ, Atkinson, A, Brewin, RJW, Clark, JR, Hickman, AE, Johns, DG, Lohan, MC, Milne, A, Pardo, S, Polimene, L, Smyth, TJ, Tarran, GA, Widdicombe, CE, Woodward, EMS and Ussher, SJ 2020 Increasing picocyanobacteria success in shelf waters contributes to long-term food web degradation. Global Change Biology. 1-14. https://doi.org/10.1111/gcb.15161
Marangoni, LFB, Davies, T, Smyth, TJ, Rodriguez, A, Hamann, M, Duarte, C, Pendoley, K, Berge, J, Maggi, E and Levy, O 2022 Impacts of artificial light at night in marine ecosystems—A review. Global Change Biology. https://doi.org/10.1111/gcb.16264
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Guy-Haim, T, Lyons, D, Kotta, J, Ojaveer, H, Queiros, AM, Chatzinikolaou, E, Arvanitidis, C, Como, S, Magni, P, Blight, AJ, Orav-Kotta, H and Somerfield, PJ 2018 Diverse effects of invasive ecosystem engineers on marine biodiversity and ecosystem functions – a global review and meta-analysis. Global Change Biology. https://doi.org/10.1111/gcb.14007
Cripps, G, Lindeque, PK and Flynn, KJ 2014 Have we been underestimating the effects of ocean acidification in zooplankton?. Global Change Biology. n/a-n/a. https://doi.org/10.1111/gcb.12582
Item not available from this repository.
Schmidt, K, Graeve, M, Hoppe, CJM, Torres‐Valdes, S, Welteke, N, Whitmore, LM, Anhaus, P, Atkinson, A, Belt, ST, Brenneis, T, Campbell, R, Castellani, G, Copeman, LA, Flores, H, Fong, AA, Hildebrandt, N, Kohlbach, D, Nielsen, JM, Parrish, CC, Rad‐Menéndez, C, Rokitta, SD, Tippenhauer, S and Zhuang, Y 2023 Essential omega‐3 fatty acids are depleted in sea ice and pelagic algae of the Central Arctic Ocean. Global Change Biology, 30 (1). https://doi.org/10.1111/gcb.17090
McGinty, N, Barton, AD, Record, NR, Finkel, ZV, Johns, DG, Stock, CA and Irwin, AJ 2020 Anthropogenic climate change impacts on copepod trait biogeography. Global Change Biology, 27 (7). 1431-1442. https://doi.org/10.1111/gcb.15499
Kléparski, L, Beaugrand, G, Edwards, M and Ostle, C 2023 Phytoplankton life strategies, phenological shifts and climate change in the North Atlantic Ocean from 1850 to 2100. Global Change Biology, 29 (13). 3833-3849. https://doi.org/10.1111/gcb.16709
McGinty, N, Barton, AD, Record, NR, Finkel, ZV, Johns, DG, Stock, CA and Irwin, AJ 2020 Anthropogenic climate change impacts on copepod trait biogeography. Global Change Biology, 27 (7). 1431-1442. https://doi.org/10.1111/gcb.15499
Kléparski, L, Beaugrand, G, Ostle, C, Edwards, M, Skogen, MD, Djeghri, N and Hátún, H 2024 Ocean climate and hydrodynamics drive decadal shifts in Northeast Atlantic dinoflagellates. Global Change Biology, 30 (2). https://doi.org/10.1111/gcb.17163
Item not available from this repository.
Kléparski, L, Beaugrand, G, Edwards, M and Ostle, C 2023 Phytoplankton life strategies, phenological shifts and climate change in the North Atlantic Ocean from 1850 to 2100. Global Change Biology, 29 (13). 3833-3849. https://doi.org/10.1111/gcb.16709
McGinty, N, Barton, AD, Record, NR, Finkel, ZV, Johns, DG, Stock, CA and Irwin, AJ 2020 Anthropogenic climate change impacts on copepod trait biogeography. Global Change Biology, 27 (7). 1431-1442. https://doi.org/10.1111/gcb.15499
Lucas, RM, German, S, Metternicht, G, Schmidt, RK, Owers, CJ, Prober, SM, Richards, AE, Tetreault‐Campbell, S, Williams, KJ, Mueller, N, Tissott, B, Chua, SMT, Cowood, A, Hills, T, Gunawardana, D, McIntyre, AD, Chognard, S, Hurford, C, Planque, C, Punalekar, S, Clewley, D, Sonnenschein, R, Murray, NJ, Manakos, I, Blonda, P, Owers, K, Roxburgh, S, Kay, H, Bunting, P and Horton, C 2022 A globally relevant change taxonomy and evidence‐based change framework for land monitoring. Global Change Biology. https://doi.org/10.1111/gcb.16346
Davies, TW and Smyth, TJ 2018 Why artificial light at night should be a focus for global change research in the 21st century. Global Change Biology. https://doi.org/10.1111/gcb.13927
Lucas, RM, German, S, Metternicht, G, Schmidt, RK, Owers, CJ, Prober, SM, Richards, AE, Tetreault‐Campbell, S, Williams, KJ, Mueller, N, Tissott, B, Chua, SMT, Cowood, A, Hills, T, Gunawardana, D, McIntyre, AD, Chognard, S, Hurford, C, Planque, C, Punalekar, S, Clewley, D, Sonnenschein, R, Murray, NJ, Manakos, I, Blonda, P, Owers, K, Roxburgh, S, Kay, H, Bunting, P and Horton, C 2022 A globally relevant change taxonomy and evidence‐based change framework for land monitoring. Global Change Biology. https://doi.org/10.1111/gcb.16346
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Guy-Haim, T, Lyons, D, Kotta, J, Ojaveer, H, Queiros, AM, Chatzinikolaou, E, Arvanitidis, C, Como, S, Magni, P, Blight, AJ, Orav-Kotta, H and Somerfield, PJ 2018 Diverse effects of invasive ecosystem engineers on marine biodiversity and ecosystem functions – a global review and meta-analysis. Global Change Biology. https://doi.org/10.1111/gcb.14007
Lyons, D, Arvanitidis, C, Blight, AJ, Chatzinikolaou, E, Guy-Haim, T, Kotta, J, Orav-Kotta, H, Queiros, AM, Rilov, G, Somerfield, PJ and Crowe, TP 2014 Macroalgal blooms alter community structure and primary productivity in marine ecosystems. Global Change Biology. https://doi.org/10.1111/gcb.12644
Item not available from this repository.
Chust, G, Allen, JI, Bopp, L, Schrum, C, Holt, JT, Tsiaras, K, Zavatarelli, M, Chifflet, M, Cannaby, Hr, Dadou, I, Daewel, U, Wakelin, SL, Machu, E, Pushpadas, D, Butenschon, M, Artioli, Y, Petihakis, G, Smith, C, Garçon, VC, Goubanova, K, Le Vu, B, Fach, BA, Salihoglu, B, Clementi, E and Irigoien, X 2014 Biomass changes and trophic amplification of plankton in a warmer ocean. Global Change Biology, 20 (7). 2124-2139. https://doi.org/10.1111/gcb.12562
Atkinson, A, Hill, SL, Reiss, CS, Pakhomov, EA, Beaugrand, G, Tarling, GA, Yang, G, Steinberg, DK, Schmidt, K, Edwards, M, Rombolá, E and Perry, FA 2021 Stepping stones towards Antarctica: Switch to southern spawning grounds explains an abrupt range shift in krill. Global Change Biology. https://doi.org/10.1111/gcb.16009
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Schmidt, K, Graeve, M, Hoppe, CJM, Torres‐Valdes, S, Welteke, N, Whitmore, LM, Anhaus, P, Atkinson, A, Belt, ST, Brenneis, T, Campbell, R, Castellani, G, Copeman, LA, Flores, H, Fong, AA, Hildebrandt, N, Kohlbach, D, Nielsen, JM, Parrish, CC, Rad‐Menéndez, C, Rokitta, SD, Tippenhauer, S and Zhuang, Y 2023 Essential omega‐3 fatty acids are depleted in sea ice and pelagic algae of the Central Arctic Ocean. Global Change Biology, 30 (1). https://doi.org/10.1111/gcb.17090
Atkinson, A, Hill, SL, Reiss, CS, Pakhomov, EA, Beaugrand, G, Tarling, GA, Yang, G, Steinberg, DK, Schmidt, K, Edwards, M, Rombolá, E and Perry, FA 2021 Stepping stones towards Antarctica: Switch to southern spawning grounds explains an abrupt range shift in krill. Global Change Biology. https://doi.org/10.1111/gcb.16009
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Saha, M, Barboza, FR, Somerfield, PJ, Al‐Janabi, B, Beck, M, Brakel, J, Ito, M, Pansch, C, Nascimento‐Schulze, JC, Jakobsson Thor, S, Weinberger, F and Sawall, Y 2019 Response of foundation macrophytes to near‐natural simulated marine heatwaves. Global Change Biology. https://doi.org/10.1111/gcb.14801
Spencer, M, Mieszkowska, N, Robinson, LA, Simpson, SD, Burrows, MT, Birchenough, SNR, Capasso, E, Cleall-Harding, P, Crummy, J, Duck, C, Eloire, D, Frost, MT, Hall, AJ, Hawkins, SJ, Johns, DG, Sims, DW, Smyth, TJ and Frid, CLJ 2012 Region-wide changes in marine ecosystem dynamics: state-space models to distinguish trends from step changes. Global Change Biology, 18 (4). 1270 - 1281. https://doi.org/10.1111/j.1365-2486.2011.02620.x
Item not available from this repository.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Queiros, AM, Talbot, E, Beaumont, NJ, Somerfield, PJ, Kay, S, Pascoe, CK, Dedman, S, Fernandes, JA, Jueterbock, A, Miller, PI, Sailley, SF, Sara, G, Carr, LM, Austen, MC, Widdicombe, S, Rilov, G, Levin, LA, Hull, SC, Walmsley, SF and Nic Aonghusa, C 2021 Bright spots as climate‐smart marine spatial planning tools for conservation and blue growth. Global Change Biology, 27 (21). 5514-5531. https://doi.org/10.1111/gcb.15827
Schmidt, K, Birchill, AJ, Atkinson, A, Brewin, RJW, Clark, JR, Hickman, AE, Johns, DG, Lohan, MC, Milne, A, Pardo, S, Polimene, L, Smyth, TJ, Tarran, GA, Widdicombe, CE, Woodward, EMS and Ussher, SJ 2020 Increasing picocyanobacteria success in shelf waters contributes to long-term food web degradation. Global Change Biology. 1-14. https://doi.org/10.1111/gcb.15161
Chust, G, Allen, JI, Bopp, L, Schrum, C, Holt, JT, Tsiaras, K, Zavatarelli, M, Chifflet, M, Cannaby, Hr, Dadou, I, Daewel, U, Wakelin, SL, Machu, E, Pushpadas, D, Butenschon, M, Artioli, Y, Petihakis, G, Smith, C, Garçon, VC, Goubanova, K, Le Vu, B, Fach, BA, Salihoglu, B, Clementi, E and Irigoien, X 2014 Biomass changes and trophic amplification of plankton in a warmer ocean. Global Change Biology, 20 (7). 2124-2139. https://doi.org/10.1111/gcb.12562
Bedford, J, Ostle, C, Johns, DG, Atkinson, A, Best, M, Bresnan, E, Machairopoulou, M, Graves, CA, Devlin, M and McQuatters-Gollop et al, A 2020 Lifeform indicators reveal large-scale shifts in plankton across the North-West European shelf. Global Change Biology, 26. 3482-3497. https://doi.org/10.1111/gcb.15066
Bedford, J, Ostle, C, Johns, DG, Atkinson, A, Best, M, Bresnan, E, Machairopoulou, M, Graves, CA, Devlin, M, Milligan, AJ, Pitois, SG, Mellor, A, Tett, P and McQuatters‐Gollop, A 2020 Lifeform indicators reveal large‐scale shifts in plankton across the North‐West European shelf. Global Change Biology, 26 (6). 3482-3497. https://doi.org/10.1111/gcb.15066
Saha, M, Barboza, FR, Somerfield, PJ, Al‐Janabi, B, Beck, M, Brakel, J, Ito, M, Pansch, C, Nascimento‐Schulze, JC, Jakobsson Thor, S, Weinberger, F and Sawall, Y 2019 Response of foundation macrophytes to near‐natural simulated marine heatwaves. Global Change Biology. https://doi.org/10.1111/gcb.14801
Otero, J, L'Abée-Lund, JH, Castro-Santos, T, Leonardsson, K, Storvik, GO, Jonsson, B, Dempson, B, Russell, IC, Jensen, AJ, Baglinière, J-L, Dionne, M, Armstrong, JD, Romakkaniemi, A, Letcher, BH, Kocik, JF, Erkinaro, J, Poole, R, Rogan, G, Lundqvist, H, MacLean, JC, Jokikokko, E, Arnekleiv, JV, Kennedy, RJ, Niemelä, E, Caballero, P, Music, PA, Antonsson, T, Gudjonsson, S, Veselov, AE, Lamberg, A, Groom, SB, Taylor, BH, Taberner, M, Dillane, M, Arnason, F, Horton, G, Hvidsten, NA, Jonsson, IR, Jonsson, N, McKelvey, S, Naesje, TF, Skaala, Ø, Smith, GW, Saegrov, H, Stenseth, NC and Vøllestad, LA 2013 Basin-scale phenology and effects of climate variability on global timing of initial seaward migration of Atlantic salmon (Salmo salar). Global Change Biology, 20 (1). 61-75. https://doi.org/10.1111/gcb.12363
Saha, M, Barboza, FR, Somerfield, PJ, Al‐Janabi, B, Beck, M, Brakel, J, Ito, M, Pansch, C, Nascimento‐Schulze, JC, Jakobsson Thor, S, Weinberger, F and Sawall, Y 2019 Response of foundation macrophytes to near‐natural simulated marine heatwaves. Global Change Biology. https://doi.org/10.1111/gcb.14801
Bedford, J, Ostle, C, Johns, DG, Atkinson, A, Best, M, Bresnan, E, Machairopoulou, M, Graves, CA, Devlin, M and McQuatters-Gollop et al, A 2020 Lifeform indicators reveal large-scale shifts in plankton across the North-West European shelf. Global Change Biology, 26. 3482-3497. https://doi.org/10.1111/gcb.15066
Bedford, J, Ostle, C, Johns, DG, Atkinson, A, Best, M, Bresnan, E, Machairopoulou, M, Graves, CA, Devlin, M, Milligan, AJ, Pitois, SG, Mellor, A, Tett, P and McQuatters‐Gollop, A 2020 Lifeform indicators reveal large‐scale shifts in plankton across the North‐West European shelf. Global Change Biology, 26 (6). 3482-3497. https://doi.org/10.1111/gcb.15066
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Davies, TW and Smyth, TJ 2018 Why artificial light at night should be a focus for global change research in the 21st century. Global Change Biology. https://doi.org/10.1111/gcb.13927
Lyons, D, Arvanitidis, C, Blight, AJ, Chatzinikolaou, E, Guy-Haim, T, Kotta, J, Orav-Kotta, H, Queiros, AM, Rilov, G, Somerfield, PJ and Crowe, TP 2014 Macroalgal blooms alter community structure and primary productivity in marine ecosystems. Global Change Biology. https://doi.org/10.1111/gcb.12644
Item not available from this repository.
Lyons, D, Arvanitidis, C, Blight, AJ, Chatzinikolaou, E, Guy-Haim, T, Kotta, J, Orav-Kotta, H, Queiros, AM, Rilov, G, Somerfield, PJ and Crowe, TP 2014 Macroalgal blooms alter community structure and primary productivity in marine ecosystems. Global Change Biology. https://doi.org/10.1111/gcb.12644
Item not available from this repository.
Saha, M, Barboza, FR, Somerfield, PJ, Al‐Janabi, B, Beck, M, Brakel, J, Ito, M, Pansch, C, Nascimento‐Schulze, JC, Jakobsson Thor, S, Weinberger, F and Sawall, Y 2019 Response of foundation macrophytes to near‐natural simulated marine heatwaves. Global Change Biology. https://doi.org/10.1111/gcb.14801
Davies, TW and Smyth, TJ 2018 Why artificial light at night should be a focus for global change research in the 21st century. Global Change Biology. https://doi.org/10.1111/gcb.13927
Davies, TW and Smyth, TJ 2018 Why artificial light at night should be a focus for global change research in the 21st century. Global Change Biology. https://doi.org/10.1111/gcb.13927
Schmidt, K, Graeve, M, Hoppe, CJM, Torres‐Valdes, S, Welteke, N, Whitmore, LM, Anhaus, P, Atkinson, A, Belt, ST, Brenneis, T, Campbell, R, Castellani, G, Copeman, LA, Flores, H, Fong, AA, Hildebrandt, N, Kohlbach, D, Nielsen, JM, Parrish, CC, Rad‐Menéndez, C, Rokitta, SD, Tippenhauer, S and Zhuang, Y 2023 Essential omega‐3 fatty acids are depleted in sea ice and pelagic algae of the Central Arctic Ocean. Global Change Biology, 30 (1). https://doi.org/10.1111/gcb.17090
Lucas, RM, German, S, Metternicht, G, Schmidt, RK, Owers, CJ, Prober, SM, Richards, AE, Tetreault‐Campbell, S, Williams, KJ, Mueller, N, Tissott, B, Chua, SMT, Cowood, A, Hills, T, Gunawardana, D, McIntyre, AD, Chognard, S, Hurford, C, Planque, C, Punalekar, S, Clewley, D, Sonnenschein, R, Murray, NJ, Manakos, I, Blonda, P, Owers, K, Roxburgh, S, Kay, H, Bunting, P and Horton, C 2022 A globally relevant change taxonomy and evidence‐based change framework for land monitoring. Global Change Biology. https://doi.org/10.1111/gcb.16346
Bedford, J, Ostle, C, Johns, DG, Atkinson, A, Best, M, Bresnan, E, Machairopoulou, M, Graves, CA, Devlin, M and McQuatters-Gollop et al, A 2020 Lifeform indicators reveal large-scale shifts in plankton across the North-West European shelf. Global Change Biology, 26. 3482-3497. https://doi.org/10.1111/gcb.15066
Bedford, J, Ostle, C, Johns, DG, Atkinson, A, Best, M, Bresnan, E, Machairopoulou, M, Graves, CA, Devlin, M, Milligan, AJ, Pitois, SG, Mellor, A, Tett, P and McQuatters‐Gollop, A 2020 Lifeform indicators reveal large‐scale shifts in plankton across the North‐West European shelf. Global Change Biology, 26 (6). 3482-3497. https://doi.org/10.1111/gcb.15066
Montero, JT, Lima, M, Estay, SA and Rezende, EL 2020 Spatial and temporal shift in the factors affecting the population dynamics of Calanus copepods in the North Sea.. Global Change Biology, 27 (3). 576-586. https://doi.org/10.1111/gcb.15394
Guy-Haim, T, Lyons, D, Kotta, J, Ojaveer, H, Queiros, AM, Chatzinikolaou, E, Arvanitidis, C, Como, S, Magni, P, Blight, AJ, Orav-Kotta, H and Somerfield, PJ 2018 Diverse effects of invasive ecosystem engineers on marine biodiversity and ecosystem functions – a global review and meta-analysis. Global Change Biology. https://doi.org/10.1111/gcb.14007
Schmidt, K, Birchill, AJ, Atkinson, A, Brewin, RJW, Clark, JR, Hickman, AE, Johns, DG, Lohan, MC, Milne, A, Pardo, S, Polimene, L, Smyth, TJ, Tarran, GA, Widdicombe, CE, Woodward, EMS and Ussher, SJ 2020 Increasing picocyanobacteria success in shelf waters contributes to long-term food web degradation. Global Change Biology. 1-14. https://doi.org/10.1111/gcb.15161
Lucas, RM, German, S, Metternicht, G, Schmidt, RK, Owers, CJ, Prober, SM, Richards, AE, Tetreault‐Campbell, S, Williams, KJ, Mueller, N, Tissott, B, Chua, SMT, Cowood, A, Hills, T, Gunawardana, D, McIntyre, AD, Chognard, S, Hurford, C, Planque, C, Punalekar, S, Clewley, D, Sonnenschein, R, Murray, NJ, Manakos, I, Blonda, P, Owers, K, Roxburgh, S, Kay, H, Bunting, P and Horton, C 2022 A globally relevant change taxonomy and evidence‐based change framework for land monitoring. Global Change Biology. https://doi.org/10.1111/gcb.16346
Schmidt, K, Graeve, M, Hoppe, CJM, Torres‐Valdes, S, Welteke, N, Whitmore, LM, Anhaus, P, Atkinson, A, Belt, ST, Brenneis, T, Campbell, R, Castellani, G, Copeman, LA, Flores, H, Fong, AA, Hildebrandt, N, Kohlbach, D, Nielsen, JM, Parrish, CC, Rad‐Menéndez, C, Rokitta, SD, Tippenhauer, S and Zhuang, Y 2023 Essential omega‐3 fatty acids are depleted in sea ice and pelagic algae of the Central Arctic Ocean. Global Change Biology, 30 (1). https://doi.org/10.1111/gcb.17090
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Lyons, D, Arvanitidis, C, Blight, AJ, Chatzinikolaou, E, Guy-Haim, T, Kotta, J, Orav-Kotta, H, Queiros, AM, Rilov, G, Somerfield, PJ and Crowe, TP 2014 Macroalgal blooms alter community structure and primary productivity in marine ecosystems. Global Change Biology. https://doi.org/10.1111/gcb.12644
Item not available from this repository.
Lyons, D, Arvanitidis, C, Blight, AJ, Chatzinikolaou, E, Guy-Haim, T, Kotta, J, Orav-Kotta, H, Queiros, AM, Rilov, G, Somerfield, PJ and Crowe, TP 2014 Macroalgal blooms alter community structure and primary productivity in marine ecosystems. Global Change Biology. https://doi.org/10.1111/gcb.12644
Item not available from this repository.
Saha, M, Barboza, FR, Somerfield, PJ, Al‐Janabi, B, Beck, M, Brakel, J, Ito, M, Pansch, C, Nascimento‐Schulze, JC, Jakobsson Thor, S, Weinberger, F and Sawall, Y 2019 Response of foundation macrophytes to near‐natural simulated marine heatwaves. Global Change Biology. https://doi.org/10.1111/gcb.14801
Atkinson, A, Hill, SL, Reiss, CS, Pakhomov, EA, Beaugrand, G, Tarling, GA, Yang, G, Steinberg, DK, Schmidt, K, Edwards, M, Rombolá, E and Perry, FA 2021 Stepping stones towards Antarctica: Switch to southern spawning grounds explains an abrupt range shift in krill. Global Change Biology. https://doi.org/10.1111/gcb.16009
Atkinson, A, Hill, SL, Reiss, CS, Pakhomov, EA, Beaugrand, G, Tarling, GA, Yang, G, Steinberg, DK, Schmidt, K, Edwards, M, Rombolá, E and Perry, FA 2021 Stepping stones towards Antarctica: Switch to southern spawning grounds explains an abrupt range shift in krill. Global Change Biology. https://doi.org/10.1111/gcb.16009
Marangoni, LFB, Davies, T, Smyth, TJ, Rodriguez, A, Hamann, M, Duarte, C, Pendoley, K, Berge, J, Maggi, E and Levy, O 2022 Impacts of artificial light at night in marine ecosystems—A review. Global Change Biology. https://doi.org/10.1111/gcb.16264
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Saha, M, Barboza, FR, Somerfield, PJ, Al‐Janabi, B, Beck, M, Brakel, J, Ito, M, Pansch, C, Nascimento‐Schulze, JC, Jakobsson Thor, S, Weinberger, F and Sawall, Y 2019 Response of foundation macrophytes to near‐natural simulated marine heatwaves. Global Change Biology. https://doi.org/10.1111/gcb.14801
Queiros, AM, Talbot, E, Beaumont, NJ, Somerfield, PJ, Kay, S, Pascoe, CK, Dedman, S, Fernandes, JA, Jueterbock, A, Miller, PI, Sailley, SF, Sara, G, Carr, LM, Austen, MC, Widdicombe, S, Rilov, G, Levin, LA, Hull, SC, Walmsley, SF and Nic Aonghusa, C 2021 Bright spots as climate‐smart marine spatial planning tools for conservation and blue growth. Global Change Biology, 27 (21). 5514-5531. https://doi.org/10.1111/gcb.15827
Queiros, AM, Talbot, E, Beaumont, NJ, Somerfield, PJ, Kay, S, Pascoe, CK, Dedman, S, Fernandes, JA, Jueterbock, A, Miller, PI, Sailley, SF, Sara, G, Carr, LM, Austen, MC, Widdicombe, S, Rilov, G, Levin, LA, Hull, SC, Walmsley, SF and Nic Aonghusa, C 2021 Bright spots as climate‐smart marine spatial planning tools for conservation and blue growth. Global Change Biology, 27 (21). 5514-5531. https://doi.org/10.1111/gcb.15827
Otero, J, L'Abée-Lund, JH, Castro-Santos, T, Leonardsson, K, Storvik, GO, Jonsson, B, Dempson, B, Russell, IC, Jensen, AJ, Baglinière, J-L, Dionne, M, Armstrong, JD, Romakkaniemi, A, Letcher, BH, Kocik, JF, Erkinaro, J, Poole, R, Rogan, G, Lundqvist, H, MacLean, JC, Jokikokko, E, Arnekleiv, JV, Kennedy, RJ, Niemelä, E, Caballero, P, Music, PA, Antonsson, T, Gudjonsson, S, Veselov, AE, Lamberg, A, Groom, SB, Taylor, BH, Taberner, M, Dillane, M, Arnason, F, Horton, G, Hvidsten, NA, Jonsson, IR, Jonsson, N, McKelvey, S, Naesje, TF, Skaala, Ø, Smith, GW, Saegrov, H, Stenseth, NC and Vøllestad, LA 2013 Basin-scale phenology and effects of climate variability on global timing of initial seaward migration of Atlantic salmon (Salmo salar). Global Change Biology, 20 (1). 61-75. https://doi.org/10.1111/gcb.12363
Schmidt, K, Graeve, M, Hoppe, CJM, Torres‐Valdes, S, Welteke, N, Whitmore, LM, Anhaus, P, Atkinson, A, Belt, ST, Brenneis, T, Campbell, R, Castellani, G, Copeman, LA, Flores, H, Fong, AA, Hildebrandt, N, Kohlbach, D, Nielsen, JM, Parrish, CC, Rad‐Menéndez, C, Rokitta, SD, Tippenhauer, S and Zhuang, Y 2023 Essential omega‐3 fatty acids are depleted in sea ice and pelagic algae of the Central Arctic Ocean. Global Change Biology, 30 (1). https://doi.org/10.1111/gcb.17090
Queiros, AM, Talbot, E, Beaumont, NJ, Somerfield, PJ, Kay, S, Pascoe, CK, Dedman, S, Fernandes, JA, Jueterbock, A, Miller, PI, Sailley, SF, Sara, G, Carr, LM, Austen, MC, Widdicombe, S, Rilov, G, Levin, LA, Hull, SC, Walmsley, SF and Nic Aonghusa, C 2021 Bright spots as climate‐smart marine spatial planning tools for conservation and blue growth. Global Change Biology, 27 (21). 5514-5531. https://doi.org/10.1111/gcb.15827
Cripps, G, Lindeque, PK and Flynn, KJ 2014 Have we been underestimating the effects of ocean acidification in zooplankton?. Global Change Biology. n/a-n/a. https://doi.org/10.1111/gcb.12582
Item not available from this repository.
Schmidt, K, Graeve, M, Hoppe, CJM, Torres‐Valdes, S, Welteke, N, Whitmore, LM, Anhaus, P, Atkinson, A, Belt, ST, Brenneis, T, Campbell, R, Castellani, G, Copeman, LA, Flores, H, Fong, AA, Hildebrandt, N, Kohlbach, D, Nielsen, JM, Parrish, CC, Rad‐Menéndez, C, Rokitta, SD, Tippenhauer, S and Zhuang, Y 2023 Essential omega‐3 fatty acids are depleted in sea ice and pelagic algae of the Central Arctic Ocean. Global Change Biology, 30 (1). https://doi.org/10.1111/gcb.17090
Queiros, AM, Talbot, E, Beaumont, NJ, Somerfield, PJ, Kay, S, Pascoe, CK, Dedman, S, Fernandes, JA, Jueterbock, A, Miller, PI, Sailley, SF, Sara, G, Carr, LM, Austen, MC, Widdicombe, S, Rilov, G, Levin, LA, Hull, SC, Walmsley, SF and Nic Aonghusa, C 2021 Bright spots as climate‐smart marine spatial planning tools for conservation and blue growth. Global Change Biology, 27 (21). 5514-5531. https://doi.org/10.1111/gcb.15827
Spencer, M, Mieszkowska, N, Robinson, LA, Simpson, SD, Burrows, MT, Birchenough, SNR, Capasso, E, Cleall-Harding, P, Crummy, J, Duck, C, Eloire, D, Frost, MT, Hall, AJ, Hawkins, SJ, Johns, DG, Sims, DW, Smyth, TJ and Frid, CLJ 2012 Region-wide changes in marine ecosystem dynamics: state-space models to distinguish trends from step changes. Global Change Biology, 18 (4). 1270 - 1281. https://doi.org/10.1111/j.1365-2486.2011.02620.x
Item not available from this repository.
Schmidt, K, Birchill, AJ, Atkinson, A, Brewin, RJW, Clark, JR, Hickman, AE, Johns, DG, Lohan, MC, Milne, A, Pardo, S, Polimene, L, Smyth, TJ, Tarran, GA, Widdicombe, CE, Woodward, EMS and Ussher, SJ 2020 Increasing picocyanobacteria success in shelf waters contributes to long-term food web degradation. Global Change Biology. 1-14. https://doi.org/10.1111/gcb.15161
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Montero, JT, Lima, M, Estay, SA and Rezende, EL 2020 Spatial and temporal shift in the factors affecting the population dynamics of Calanus copepods in the North Sea.. Global Change Biology, 27 (3). 576-586. https://doi.org/10.1111/gcb.15394
Spencer, M, Mieszkowska, N, Robinson, LA, Simpson, SD, Burrows, MT, Birchenough, SNR, Capasso, E, Cleall-Harding, P, Crummy, J, Duck, C, Eloire, D, Frost, MT, Hall, AJ, Hawkins, SJ, Johns, DG, Sims, DW, Smyth, TJ and Frid, CLJ 2012 Region-wide changes in marine ecosystem dynamics: state-space models to distinguish trends from step changes. Global Change Biology, 18 (4). 1270 - 1281. https://doi.org/10.1111/j.1365-2486.2011.02620.x
Item not available from this repository.
Raitsos, DE, Pradhan, Y, Lavender, SJ, Hoteit, I, McQuatters-Gollop, A, Reid, PC and Richardson, AJ 2014 From silk to satellite: half a century of ocean colour anomalies in the Northeast Atlantic. Global Change Biology. https://doi.org/10.1111/gcb.12457
Item not available from this repository.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Raitsos, DE, Pradhan, Y, Lavender, SJ, Hoteit, I, McQuatters-Gollop, A, Reid, PC and Richardson, AJ 2014 From silk to satellite: half a century of ocean colour anomalies in the Northeast Atlantic. Global Change Biology. https://doi.org/10.1111/gcb.12457
Item not available from this repository.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Kléparski, L, Beaugrand, G, Ostle, C, Edwards, M, Skogen, MD, Djeghri, N and Hátún, H 2024 Ocean climate and hydrodynamics drive decadal shifts in Northeast Atlantic dinoflagellates. Global Change Biology, 30 (2). https://doi.org/10.1111/gcb.17163
Item not available from this repository.
Guy-Haim, T, Lyons, D, Kotta, J, Ojaveer, H, Queiros, AM, Chatzinikolaou, E, Arvanitidis, C, Como, S, Magni, P, Blight, AJ, Orav-Kotta, H and Somerfield, PJ 2018 Diverse effects of invasive ecosystem engineers on marine biodiversity and ecosystem functions – a global review and meta-analysis. Global Change Biology. https://doi.org/10.1111/gcb.14007
Schmidt, K, Graeve, M, Hoppe, CJM, Torres‐Valdes, S, Welteke, N, Whitmore, LM, Anhaus, P, Atkinson, A, Belt, ST, Brenneis, T, Campbell, R, Castellani, G, Copeman, LA, Flores, H, Fong, AA, Hildebrandt, N, Kohlbach, D, Nielsen, JM, Parrish, CC, Rad‐Menéndez, C, Rokitta, SD, Tippenhauer, S and Zhuang, Y 2023 Essential omega‐3 fatty acids are depleted in sea ice and pelagic algae of the Central Arctic Ocean. Global Change Biology, 30 (1). https://doi.org/10.1111/gcb.17090
Kléparski, L, Beaugrand, G, Edwards, M and Ostle, C 2023 Phytoplankton life strategies, phenological shifts and climate change in the North Atlantic Ocean from 1850 to 2100. Global Change Biology, 29 (13). 3833-3849. https://doi.org/10.1111/gcb.16709
Cripps, G, Lindeque, PK and Flynn, KJ 2014 Have we been underestimating the effects of ocean acidification in zooplankton?. Global Change Biology. n/a-n/a. https://doi.org/10.1111/gcb.12582
Item not available from this repository.
Raitsos, DE, Pradhan, Y, Lavender, SJ, Hoteit, I, McQuatters-Gollop, A, Reid, PC and Richardson, AJ 2014 From silk to satellite: half a century of ocean colour anomalies in the Northeast Atlantic. Global Change Biology. https://doi.org/10.1111/gcb.12457
Item not available from this repository.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Otero, J, L'Abée-Lund, JH, Castro-Santos, T, Leonardsson, K, Storvik, GO, Jonsson, B, Dempson, B, Russell, IC, Jensen, AJ, Baglinière, J-L, Dionne, M, Armstrong, JD, Romakkaniemi, A, Letcher, BH, Kocik, JF, Erkinaro, J, Poole, R, Rogan, G, Lundqvist, H, MacLean, JC, Jokikokko, E, Arnekleiv, JV, Kennedy, RJ, Niemelä, E, Caballero, P, Music, PA, Antonsson, T, Gudjonsson, S, Veselov, AE, Lamberg, A, Groom, SB, Taylor, BH, Taberner, M, Dillane, M, Arnason, F, Horton, G, Hvidsten, NA, Jonsson, IR, Jonsson, N, McKelvey, S, Naesje, TF, Skaala, Ø, Smith, GW, Saegrov, H, Stenseth, NC and Vøllestad, LA 2013 Basin-scale phenology and effects of climate variability on global timing of initial seaward migration of Atlantic salmon (Salmo salar). Global Change Biology, 20 (1). 61-75. https://doi.org/10.1111/gcb.12363
Bedford, J, Ostle, C, Johns, DG, Atkinson, A, Best, M, Bresnan, E, Machairopoulou, M, Graves, CA, Devlin, M and McQuatters-Gollop et al, A 2020 Lifeform indicators reveal large-scale shifts in plankton across the North-West European shelf. Global Change Biology, 26. 3482-3497. https://doi.org/10.1111/gcb.15066
Bedford, J, Ostle, C, Johns, DG, Atkinson, A, Best, M, Bresnan, E, Machairopoulou, M, Graves, CA, Devlin, M, Milligan, AJ, Pitois, SG, Mellor, A, Tett, P and McQuatters‐Gollop, A 2020 Lifeform indicators reveal large‐scale shifts in plankton across the North‐West European shelf. Global Change Biology, 26 (6). 3482-3497. https://doi.org/10.1111/gcb.15066
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Marangoni, LFB, Davies, T, Smyth, TJ, Rodriguez, A, Hamann, M, Duarte, C, Pendoley, K, Berge, J, Maggi, E and Levy, O 2022 Impacts of artificial light at night in marine ecosystems—A review. Global Change Biology. https://doi.org/10.1111/gcb.16264
Kléparski, L, Beaugrand, G, Edwards, M and Ostle, C 2023 Phytoplankton life strategies, phenological shifts and climate change in the North Atlantic Ocean from 1850 to 2100. Global Change Biology, 29 (13). 3833-3849. https://doi.org/10.1111/gcb.16709
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Spencer, M, Mieszkowska, N, Robinson, LA, Simpson, SD, Burrows, MT, Birchenough, SNR, Capasso, E, Cleall-Harding, P, Crummy, J, Duck, C, Eloire, D, Frost, MT, Hall, AJ, Hawkins, SJ, Johns, DG, Sims, DW, Smyth, TJ and Frid, CLJ 2012 Region-wide changes in marine ecosystem dynamics: state-space models to distinguish trends from step changes. Global Change Biology, 18 (4). 1270 - 1281. https://doi.org/10.1111/j.1365-2486.2011.02620.x
Item not available from this repository.
Raitsos, DE, Pradhan, Y, Lavender, SJ, Hoteit, I, McQuatters-Gollop, A, Reid, PC and Richardson, AJ 2014 From silk to satellite: half a century of ocean colour anomalies in the Northeast Atlantic. Global Change Biology. https://doi.org/10.1111/gcb.12457
Item not available from this repository.
Schmidt, K, Birchill, AJ, Atkinson, A, Brewin, RJW, Clark, JR, Hickman, AE, Johns, DG, Lohan, MC, Milne, A, Pardo, S, Polimene, L, Smyth, TJ, Tarran, GA, Widdicombe, CE, Woodward, EMS and Ussher, SJ 2020 Increasing picocyanobacteria success in shelf waters contributes to long-term food web degradation. Global Change Biology. 1-14. https://doi.org/10.1111/gcb.15161
Chust, G, Allen, JI, Bopp, L, Schrum, C, Holt, JT, Tsiaras, K, Zavatarelli, M, Chifflet, M, Cannaby, Hr, Dadou, I, Daewel, U, Wakelin, SL, Machu, E, Pushpadas, D, Butenschon, M, Artioli, Y, Petihakis, G, Smith, C, Garçon, VC, Goubanova, K, Le Vu, B, Fach, BA, Salihoglu, B, Clementi, E and Irigoien, X 2014 Biomass changes and trophic amplification of plankton in a warmer ocean. Global Change Biology, 20 (7). 2124-2139. https://doi.org/10.1111/gcb.12562
Lucas, RM, German, S, Metternicht, G, Schmidt, RK, Owers, CJ, Prober, SM, Richards, AE, Tetreault‐Campbell, S, Williams, KJ, Mueller, N, Tissott, B, Chua, SMT, Cowood, A, Hills, T, Gunawardana, D, McIntyre, AD, Chognard, S, Hurford, C, Planque, C, Punalekar, S, Clewley, D, Sonnenschein, R, Murray, NJ, Manakos, I, Blonda, P, Owers, K, Roxburgh, S, Kay, H, Bunting, P and Horton, C 2022 A globally relevant change taxonomy and evidence‐based change framework for land monitoring. Global Change Biology. https://doi.org/10.1111/gcb.16346
Otero, J, L'Abée-Lund, JH, Castro-Santos, T, Leonardsson, K, Storvik, GO, Jonsson, B, Dempson, B, Russell, IC, Jensen, AJ, Baglinière, J-L, Dionne, M, Armstrong, JD, Romakkaniemi, A, Letcher, BH, Kocik, JF, Erkinaro, J, Poole, R, Rogan, G, Lundqvist, H, MacLean, JC, Jokikokko, E, Arnekleiv, JV, Kennedy, RJ, Niemelä, E, Caballero, P, Music, PA, Antonsson, T, Gudjonsson, S, Veselov, AE, Lamberg, A, Groom, SB, Taylor, BH, Taberner, M, Dillane, M, Arnason, F, Horton, G, Hvidsten, NA, Jonsson, IR, Jonsson, N, McKelvey, S, Naesje, TF, Skaala, Ø, Smith, GW, Saegrov, H, Stenseth, NC and Vøllestad, LA 2013 Basin-scale phenology and effects of climate variability on global timing of initial seaward migration of Atlantic salmon (Salmo salar). Global Change Biology, 20 (1). 61-75. https://doi.org/10.1111/gcb.12363
Montero, JT, Lima, M, Estay, SA and Rezende, EL 2020 Spatial and temporal shift in the factors affecting the population dynamics of Calanus copepods in the North Sea.. Global Change Biology, 27 (3). 576-586. https://doi.org/10.1111/gcb.15394
Otero, J, L'Abée-Lund, JH, Castro-Santos, T, Leonardsson, K, Storvik, GO, Jonsson, B, Dempson, B, Russell, IC, Jensen, AJ, Baglinière, J-L, Dionne, M, Armstrong, JD, Romakkaniemi, A, Letcher, BH, Kocik, JF, Erkinaro, J, Poole, R, Rogan, G, Lundqvist, H, MacLean, JC, Jokikokko, E, Arnekleiv, JV, Kennedy, RJ, Niemelä, E, Caballero, P, Music, PA, Antonsson, T, Gudjonsson, S, Veselov, AE, Lamberg, A, Groom, SB, Taylor, BH, Taberner, M, Dillane, M, Arnason, F, Horton, G, Hvidsten, NA, Jonsson, IR, Jonsson, N, McKelvey, S, Naesje, TF, Skaala, Ø, Smith, GW, Saegrov, H, Stenseth, NC and Vøllestad, LA 2013 Basin-scale phenology and effects of climate variability on global timing of initial seaward migration of Atlantic salmon (Salmo salar). Global Change Biology, 20 (1). 61-75. https://doi.org/10.1111/gcb.12363
Lucas, RM, German, S, Metternicht, G, Schmidt, RK, Owers, CJ, Prober, SM, Richards, AE, Tetreault‐Campbell, S, Williams, KJ, Mueller, N, Tissott, B, Chua, SMT, Cowood, A, Hills, T, Gunawardana, D, McIntyre, AD, Chognard, S, Hurford, C, Planque, C, Punalekar, S, Clewley, D, Sonnenschein, R, Murray, NJ, Manakos, I, Blonda, P, Owers, K, Roxburgh, S, Kay, H, Bunting, P and Horton, C 2022 A globally relevant change taxonomy and evidence‐based change framework for land monitoring. Global Change Biology. https://doi.org/10.1111/gcb.16346
Chust, G, Allen, JI, Bopp, L, Schrum, C, Holt, JT, Tsiaras, K, Zavatarelli, M, Chifflet, M, Cannaby, Hr, Dadou, I, Daewel, U, Wakelin, SL, Machu, E, Pushpadas, D, Butenschon, M, Artioli, Y, Petihakis, G, Smith, C, Garçon, VC, Goubanova, K, Le Vu, B, Fach, BA, Salihoglu, B, Clementi, E and Irigoien, X 2014 Biomass changes and trophic amplification of plankton in a warmer ocean. Global Change Biology, 20 (7). 2124-2139. https://doi.org/10.1111/gcb.12562
Guy-Haim, T, Lyons, D, Kotta, J, Ojaveer, H, Queiros, AM, Chatzinikolaou, E, Arvanitidis, C, Como, S, Magni, P, Blight, AJ, Orav-Kotta, H and Somerfield, PJ 2018 Diverse effects of invasive ecosystem engineers on marine biodiversity and ecosystem functions – a global review and meta-analysis. Global Change Biology. https://doi.org/10.1111/gcb.14007
Kléparski, L, Beaugrand, G, Edwards, M and Ostle, C 2023 Phytoplankton life strategies, phenological shifts and climate change in the North Atlantic Ocean from 1850 to 2100. Global Change Biology, 29 (13). 3833-3849. https://doi.org/10.1111/gcb.16709
Atkinson, A, Hill, SL, Reiss, CS, Pakhomov, EA, Beaugrand, G, Tarling, GA, Yang, G, Steinberg, DK, Schmidt, K, Edwards, M, Rombolá, E and Perry, FA 2021 Stepping stones towards Antarctica: Switch to southern spawning grounds explains an abrupt range shift in krill. Global Change Biology. https://doi.org/10.1111/gcb.16009
Atkinson, A, Hill, SL, Reiss, CS, Pakhomov, EA, Beaugrand, G, Tarling, GA, Yang, G, Steinberg, DK, Schmidt, K, Edwards, M, Rombolá, E and Perry, FA 2021 Stepping stones towards Antarctica: Switch to southern spawning grounds explains an abrupt range shift in krill. Global Change Biology. https://doi.org/10.1111/gcb.16009
Cripps, G, Lindeque, PK and Flynn, KJ 2014 Have we been underestimating the effects of ocean acidification in zooplankton?. Global Change Biology. n/a-n/a. https://doi.org/10.1111/gcb.12582
Item not available from this repository.
Montero, JT, Lima, M, Estay, SA and Rezende, EL 2020 Spatial and temporal shift in the factors affecting the population dynamics of Calanus copepods in the North Sea.. Global Change Biology, 27 (3). 576-586. https://doi.org/10.1111/gcb.15394
Spencer, M, Mieszkowska, N, Robinson, LA, Simpson, SD, Burrows, MT, Birchenough, SNR, Capasso, E, Cleall-Harding, P, Crummy, J, Duck, C, Eloire, D, Frost, MT, Hall, AJ, Hawkins, SJ, Johns, DG, Sims, DW, Smyth, TJ and Frid, CLJ 2012 Region-wide changes in marine ecosystem dynamics: state-space models to distinguish trends from step changes. Global Change Biology, 18 (4). 1270 - 1281. https://doi.org/10.1111/j.1365-2486.2011.02620.x
Item not available from this repository.
Otero, J, L'Abée-Lund, JH, Castro-Santos, T, Leonardsson, K, Storvik, GO, Jonsson, B, Dempson, B, Russell, IC, Jensen, AJ, Baglinière, J-L, Dionne, M, Armstrong, JD, Romakkaniemi, A, Letcher, BH, Kocik, JF, Erkinaro, J, Poole, R, Rogan, G, Lundqvist, H, MacLean, JC, Jokikokko, E, Arnekleiv, JV, Kennedy, RJ, Niemelä, E, Caballero, P, Music, PA, Antonsson, T, Gudjonsson, S, Veselov, AE, Lamberg, A, Groom, SB, Taylor, BH, Taberner, M, Dillane, M, Arnason, F, Horton, G, Hvidsten, NA, Jonsson, IR, Jonsson, N, McKelvey, S, Naesje, TF, Skaala, Ø, Smith, GW, Saegrov, H, Stenseth, NC and Vøllestad, LA 2013 Basin-scale phenology and effects of climate variability on global timing of initial seaward migration of Atlantic salmon (Salmo salar). Global Change Biology, 20 (1). 61-75. https://doi.org/10.1111/gcb.12363
Marangoni, LFB, Davies, T, Smyth, TJ, Rodriguez, A, Hamann, M, Duarte, C, Pendoley, K, Berge, J, Maggi, E and Levy, O 2022 Impacts of artificial light at night in marine ecosystems—A review. Global Change Biology. https://doi.org/10.1111/gcb.16264
Hawkins, SJ, Burrows, MT and Mieszkowska, N 2022 Shoreline sentinels of global change show the consequences of extreme events. Global Change Biology, 29 (1). 7-9. https://doi.org/10.1111/gcb.16477
Spencer, M, Mieszkowska, N, Robinson, LA, Simpson, SD, Burrows, MT, Birchenough, SNR, Capasso, E, Cleall-Harding, P, Crummy, J, Duck, C, Eloire, D, Frost, MT, Hall, AJ, Hawkins, SJ, Johns, DG, Sims, DW, Smyth, TJ and Frid, CLJ 2012 Region-wide changes in marine ecosystem dynamics: state-space models to distinguish trends from step changes. Global Change Biology, 18 (4). 1270 - 1281. https://doi.org/10.1111/j.1365-2486.2011.02620.x
Item not available from this repository.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Marangoni, LFB, Davies, T, Smyth, TJ, Rodriguez, A, Hamann, M, Duarte, C, Pendoley, K, Berge, J, Maggi, E and Levy, O 2022 Impacts of artificial light at night in marine ecosystems—A review. Global Change Biology. https://doi.org/10.1111/gcb.16264
Otero, J, L'Abée-Lund, JH, Castro-Santos, T, Leonardsson, K, Storvik, GO, Jonsson, B, Dempson, B, Russell, IC, Jensen, AJ, Baglinière, J-L, Dionne, M, Armstrong, JD, Romakkaniemi, A, Letcher, BH, Kocik, JF, Erkinaro, J, Poole, R, Rogan, G, Lundqvist, H, MacLean, JC, Jokikokko, E, Arnekleiv, JV, Kennedy, RJ, Niemelä, E, Caballero, P, Music, PA, Antonsson, T, Gudjonsson, S, Veselov, AE, Lamberg, A, Groom, SB, Taylor, BH, Taberner, M, Dillane, M, Arnason, F, Horton, G, Hvidsten, NA, Jonsson, IR, Jonsson, N, McKelvey, S, Naesje, TF, Skaala, Ø, Smith, GW, Saegrov, H, Stenseth, NC and Vøllestad, LA 2013 Basin-scale phenology and effects of climate variability on global timing of initial seaward migration of Atlantic salmon (Salmo salar). Global Change Biology, 20 (1). 61-75. https://doi.org/10.1111/gcb.12363
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Chust, G, Allen, JI, Bopp, L, Schrum, C, Holt, JT, Tsiaras, K, Zavatarelli, M, Chifflet, M, Cannaby, Hr, Dadou, I, Daewel, U, Wakelin, SL, Machu, E, Pushpadas, D, Butenschon, M, Artioli, Y, Petihakis, G, Smith, C, Garçon, VC, Goubanova, K, Le Vu, B, Fach, BA, Salihoglu, B, Clementi, E and Irigoien, X 2014 Biomass changes and trophic amplification of plankton in a warmer ocean. Global Change Biology, 20 (7). 2124-2139. https://doi.org/10.1111/gcb.12562
Marangoni, LFB, Davies, T, Smyth, TJ, Rodriguez, A, Hamann, M, Duarte, C, Pendoley, K, Berge, J, Maggi, E and Levy, O 2022 Impacts of artificial light at night in marine ecosystems—A review. Global Change Biology. https://doi.org/10.1111/gcb.16264
Marangoni, LFB, Davies, T, Smyth, TJ, Rodriguez, A, Hamann, M, Duarte, C, Pendoley, K, Berge, J, Maggi, E and Levy, O 2022 Impacts of artificial light at night in marine ecosystems—A review. Global Change Biology. https://doi.org/10.1111/gcb.16264
Spencer, M, Mieszkowska, N, Robinson, LA, Simpson, SD, Burrows, MT, Birchenough, SNR, Capasso, E, Cleall-Harding, P, Crummy, J, Duck, C, Eloire, D, Frost, MT, Hall, AJ, Hawkins, SJ, Johns, DG, Sims, DW, Smyth, TJ and Frid, CLJ 2012 Region-wide changes in marine ecosystem dynamics: state-space models to distinguish trends from step changes. Global Change Biology, 18 (4). 1270 - 1281. https://doi.org/10.1111/j.1365-2486.2011.02620.x
Item not available from this repository.
Guy-Haim, T, Lyons, D, Kotta, J, Ojaveer, H, Queiros, AM, Chatzinikolaou, E, Arvanitidis, C, Como, S, Magni, P, Blight, AJ, Orav-Kotta, H and Somerfield, PJ 2018 Diverse effects of invasive ecosystem engineers on marine biodiversity and ecosystem functions – a global review and meta-analysis. Global Change Biology. https://doi.org/10.1111/gcb.14007
Otero, J, L'Abée-Lund, JH, Castro-Santos, T, Leonardsson, K, Storvik, GO, Jonsson, B, Dempson, B, Russell, IC, Jensen, AJ, Baglinière, J-L, Dionne, M, Armstrong, JD, Romakkaniemi, A, Letcher, BH, Kocik, JF, Erkinaro, J, Poole, R, Rogan, G, Lundqvist, H, MacLean, JC, Jokikokko, E, Arnekleiv, JV, Kennedy, RJ, Niemelä, E, Caballero, P, Music, PA, Antonsson, T, Gudjonsson, S, Veselov, AE, Lamberg, A, Groom, SB, Taylor, BH, Taberner, M, Dillane, M, Arnason, F, Horton, G, Hvidsten, NA, Jonsson, IR, Jonsson, N, McKelvey, S, Naesje, TF, Skaala, Ø, Smith, GW, Saegrov, H, Stenseth, NC and Vøllestad, LA 2013 Basin-scale phenology and effects of climate variability on global timing of initial seaward migration of Atlantic salmon (Salmo salar). Global Change Biology, 20 (1). 61-75. https://doi.org/10.1111/gcb.12363
Atkinson, A, Hill, SL, Reiss, CS, Pakhomov, EA, Beaugrand, G, Tarling, GA, Yang, G, Steinberg, DK, Schmidt, K, Edwards, M, Rombolá, E and Perry, FA 2021 Stepping stones towards Antarctica: Switch to southern spawning grounds explains an abrupt range shift in krill. Global Change Biology. https://doi.org/10.1111/gcb.16009
Lyons, D, Arvanitidis, C, Blight, AJ, Chatzinikolaou, E, Guy-Haim, T, Kotta, J, Orav-Kotta, H, Queiros, AM, Rilov, G, Somerfield, PJ and Crowe, TP 2014 Macroalgal blooms alter community structure and primary productivity in marine ecosystems. Global Change Biology. https://doi.org/10.1111/gcb.12644
Item not available from this repository.
Reid, PC, Johns, DG, Edwards, M, Starr, M, Poulin, M and Snoeijs, P 2007 A biological consequence of reducing Arctic ice cover: arrival of the Pacific diatom Neodenticula seminae in the North Atlantic for the first time in 800,000 years. Global Change Biology, 13 (9). 1910-1921.
Item not available from this repository.
Spencer, M, Mieszkowska, N, Robinson, LA, Simpson, SD, Burrows, MT, Birchenough, SNR, Capasso, E, Cleall-Harding, P, Crummy, J, Duck, C, Eloire, D, Frost, MT, Hall, AJ, Hawkins, SJ, Johns, DG, Sims, DW, Smyth, TJ and Frid, CLJ 2012 Region-wide changes in marine ecosystem dynamics: state-space models to distinguish trends from step changes. Global Change Biology, 18 (4). 1270 - 1281. https://doi.org/10.1111/j.1365-2486.2011.02620.x
Item not available from this repository.
Schmidt, K, Birchill, AJ, Atkinson, A, Brewin, RJW, Clark, JR, Hickman, AE, Johns, DG, Lohan, MC, Milne, A, Pardo, S, Polimene, L, Smyth, TJ, Tarran, GA, Widdicombe, CE, Woodward, EMS and Ussher, SJ 2020 Increasing picocyanobacteria success in shelf waters contributes to long-term food web degradation. Global Change Biology. 1-14. https://doi.org/10.1111/gcb.15161
Kléparski, L, Beaugrand, G, Ostle, C, Edwards, M, Skogen, MD, Djeghri, N and Hátún, H 2024 Ocean climate and hydrodynamics drive decadal shifts in Northeast Atlantic dinoflagellates. Global Change Biology, 30 (2). https://doi.org/10.1111/gcb.17163
Item not available from this repository.
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Schmidt, K, Birchill, AJ, Atkinson, A, Brewin, RJW, Clark, JR, Hickman, AE, Johns, DG, Lohan, MC, Milne, A, Pardo, S, Polimene, L, Smyth, TJ, Tarran, GA, Widdicombe, CE, Woodward, EMS and Ussher, SJ 2020 Increasing picocyanobacteria success in shelf waters contributes to long-term food web degradation. Global Change Biology. 1-14. https://doi.org/10.1111/gcb.15161
Guy-Haim, T, Lyons, D, Kotta, J, Ojaveer, H, Queiros, AM, Chatzinikolaou, E, Arvanitidis, C, Como, S, Magni, P, Blight, AJ, Orav-Kotta, H and Somerfield, PJ 2018 Diverse effects of invasive ecosystem engineers on marine biodiversity and ecosystem functions – a global review and meta-analysis. Global Change Biology. https://doi.org/10.1111/gcb.14007
Otero, J, L'Abée-Lund, JH, Castro-Santos, T, Leonardsson, K, Storvik, GO, Jonsson, B, Dempson, B, Russell, IC, Jensen, AJ, Baglinière, J-L, Dionne, M, Armstrong, JD, Romakkaniemi, A, Letcher, BH, Kocik, JF, Erkinaro, J, Poole, R, Rogan, G, Lundqvist, H, MacLean, JC, Jokikokko, E, Arnekleiv, JV, Kennedy, RJ, Niemelä, E, Caballero, P, Music, PA, Antonsson, T, Gudjonsson, S, Veselov, AE, Lamberg, A, Groom, SB, Taylor, BH, Taberner, M, Dillane, M, Arnason, F, Horton, G, Hvidsten, NA, Jonsson, IR, Jonsson, N, McKelvey, S, Naesje, TF, Skaala, Ø, Smith, GW, Saegrov, H, Stenseth, NC and Vøllestad, LA 2013 Basin-scale phenology and effects of climate variability on global timing of initial seaward migration of Atlantic salmon (Salmo salar). Global Change Biology, 20 (1). 61-75. https://doi.org/10.1111/gcb.12363
Schmidt, K, Graeve, M, Hoppe, CJM, Torres‐Valdes, S, Welteke, N, Whitmore, LM, Anhaus, P, Atkinson, A, Belt, ST, Brenneis, T, Campbell, R, Castellani, G, Copeman, LA, Flores, H, Fong, AA, Hildebrandt, N, Kohlbach, D, Nielsen, JM, Parrish, CC, Rad‐Menéndez, C, Rokitta, SD, Tippenhauer, S and Zhuang, Y 2023 Essential omega‐3 fatty acids are depleted in sea ice and pelagic algae of the Central Arctic Ocean. Global Change Biology, 30 (1). https://doi.org/10.1111/gcb.17090
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Schmidt, K, Birchill, AJ, Atkinson, A, Brewin, RJW, Clark, JR, Hickman, AE, Johns, DG, Lohan, MC, Milne, A, Pardo, S, Polimene, L, Smyth, TJ, Tarran, GA, Widdicombe, CE, Woodward, EMS and Ussher, SJ 2020 Increasing picocyanobacteria success in shelf waters contributes to long-term food web degradation. Global Change Biology. 1-14. https://doi.org/10.1111/gcb.15161
Spencer, M, Mieszkowska, N, Robinson, LA, Simpson, SD, Burrows, MT, Birchenough, SNR, Capasso, E, Cleall-Harding, P, Crummy, J, Duck, C, Eloire, D, Frost, MT, Hall, AJ, Hawkins, SJ, Johns, DG, Sims, DW, Smyth, TJ and Frid, CLJ 2012 Region-wide changes in marine ecosystem dynamics: state-space models to distinguish trends from step changes. Global Change Biology, 18 (4). 1270 - 1281. https://doi.org/10.1111/j.1365-2486.2011.02620.x
Item not available from this repository.
Bedford, J, Ostle, C, Johns, DG, Atkinson, A, Best, M, Bresnan, E, Machairopoulou, M, Graves, CA, Devlin, M and McQuatters-Gollop et al, A 2020 Lifeform indicators reveal large-scale shifts in plankton across the North-West European shelf. Global Change Biology, 26. 3482-3497. https://doi.org/10.1111/gcb.15066
Bedford, J, Ostle, C, Johns, DG, Atkinson, A, Best, M, Bresnan, E, Machairopoulou, M, Graves, CA, Devlin, M, Milligan, AJ, Pitois, SG, Mellor, A, Tett, P and McQuatters‐Gollop, A 2020 Lifeform indicators reveal large‐scale shifts in plankton across the North‐West European shelf. Global Change Biology, 26 (6). 3482-3497. https://doi.org/10.1111/gcb.15066
McGinty, N, Barton, AD, Record, NR, Finkel, ZV, Johns, DG, Stock, CA and Irwin, AJ 2020 Anthropogenic climate change impacts on copepod trait biogeography. Global Change Biology, 27 (7). 1431-1442. https://doi.org/10.1111/gcb.15499
Chust, G, Allen, JI, Bopp, L, Schrum, C, Holt, JT, Tsiaras, K, Zavatarelli, M, Chifflet, M, Cannaby, Hr, Dadou, I, Daewel, U, Wakelin, SL, Machu, E, Pushpadas, D, Butenschon, M, Artioli, Y, Petihakis, G, Smith, C, Garçon, VC, Goubanova, K, Le Vu, B, Fach, BA, Salihoglu, B, Clementi, E and Irigoien, X 2014 Biomass changes and trophic amplification of plankton in a warmer ocean. Global Change Biology, 20 (7). 2124-2139. https://doi.org/10.1111/gcb.12562
Schmidt, K, Birchill, AJ, Atkinson, A, Brewin, RJW, Clark, JR, Hickman, AE, Johns, DG, Lohan, MC, Milne, A, Pardo, S, Polimene, L, Smyth, TJ, Tarran, GA, Widdicombe, CE, Woodward, EMS and Ussher, SJ 2020 Increasing picocyanobacteria success in shelf waters contributes to long-term food web degradation. Global Change Biology. 1-14. https://doi.org/10.1111/gcb.15161
Beaugrand, G and Reid, PC 2003 Long-term changes in phytoplankton, zooplankton and salmon related to climate. Global Change Biology, 9 (6). 801-817. https://doi.org/10.1046/j.1365-2486.2003.00632.x
Item availability may be restricted.
Cripps, G, Lindeque, PK and Flynn, KJ 2014 Have we been underestimating the effects of ocean acidification in zooplankton?. Global Change Biology. n/a-n/a. https://doi.org/10.1111/gcb.12582
Item not available from this repository.
Spencer, M, Mieszkowska, N, Robinson, LA, Simpson, SD, Burrows, MT, Birchenough, SNR, Capasso, E, Cleall-Harding, P, Crummy, J, Duck, C, Eloire, D, Frost, MT, Hall, AJ, Hawkins, SJ, Johns, DG, Sims, DW, Smyth, TJ and Frid, CLJ 2012 Region-wide changes in marine ecosystem dynamics: state-space models to distinguish trends from step changes. Global Change Biology, 18 (4). 1270 - 1281. https://doi.org/10.1111/j.1365-2486.2011.02620.x
Item not available from this repository.
Saha, M, Barboza, FR, Somerfield, PJ, Al‐Janabi, B, Beck, M, Brakel, J, Ito, M, Pansch, C, Nascimento‐Schulze, JC, Jakobsson Thor, S, Weinberger, F and Sawall, Y 2019 Response of foundation macrophytes to near‐natural simulated marine heatwaves. Global Change Biology. https://doi.org/10.1111/gcb.14801