Your search keyword '"van der Plas, Anja K."' showing total 13 results

1. The Marine Carbon Footprint: Challenges in the Quantification of the CO2 Uptake by the Biological Carbon Pump in the Benguela Upwelling System

Author

Rixen, Tim, Lahajnar, Niko, Lamont, Tarron, Koppelmann, Rolf, Martin, Bettina, Meiritz, Luisa, Siddiqui, Claire, Van der Plas, Anja K., Canadell, Josep G., Series Editor, Díaz, Sandra, Series Editor, Heldmaier, Gerhard, Series Editor, Jackson, Robert B., Series Editor, Levia, Delphis F., Series Editor, Schulze, Ernst-Detlef, Series Editor, Sommer, Ulrich, Series Editor, Wardle, David A., Series Editor, von Maltitz, Graham P., editor, Midgley, Guy F., editor, Veitch, Jennifer, editor, Brümmer, Christian, editor, Rötter, Reimund P., editor, Viehberg, Finn A., editor, and Veste, Maik, editor

Published

2024

2. Physical Drivers of Southwest African Coastal Upwelling and Its Response to Climate Variability and Change

Author

Brandt, Peter, Bordbar, Mohammad Hadi, Coelho, Paulo, Koungue, Rodrigue Anicet Imbol, Körner, Mareike, Lamont, Tarron, Lübbecke, Joke F., Mohrholz, Volker, Prigent, Arthur, Roch, Marisa, Schmidt, Martin, van der Plas, Anja K., Veitch, Jennifer, Canadell, Josep G., Series Editor, Díaz, Sandra, Series Editor, Heldmaier, Gerhard, Series Editor, Jackson, Robert B., Series Editor, Levia, Delphis F., Series Editor, Schulze, Ernst-Detlef, Series Editor, Sommer, Ulrich, Series Editor, Wardle, David A., Series Editor, von Maltitz, Graham P., editor, Midgley, Guy F., editor, Veitch, Jennifer, editor, Brümmer, Christian, editor, Rötter, Reimund P., editor, Viehberg, Finn A., editor, and Veste, Maik, editor

Published

2024

3. Regional and global impact of CO2 uptake in the Benguela Upwelling System through preformed nutrients

Author

Siddiqui, Claire, Rixen, Tim, Lahajnar, Niko, Van der Plas, Anja K., Louw, Deon C., Lamont, Tarron, and Pillay, Keshnee

Published

2023

4. Simulating potential impacts of bottom trawling on the biological carbon pump: a case study in the Benguela Upwelling System.

Author

Siddiqui, Claire, Rixen, Tim, Lahajnar, Niko, Lamont, Tarron, and van der Plas, Anja K.

Subjects

MARINE sediments, WATER masses, BIOLOGICAL productivity, UPWELLING (Oceanography), NUTRIENT cycles, COASTAL sediments, DREDGING (Fisheries)

Abstract

Bottom-trawl fishery is known to cause major disturbances to marine sediments as the dragging of trawl gears across the seabed fosters sediment resuspension, which can lead to organic particle remineralization and release of benthic CO2 and nutrients into bottom waters. However, its effects on carbon cycling and biological productivity, especially in highly productive regions like the Benguela Upwelling System (BUS), are less well studied. Here, we simulated carbon (C) and nutrient pathways from the trawled coastal seabed to overlying water masses that are being upwelled into the sunlit surface within the BUS, using shipboard data on sea surface and water column characteristics and published benthic CO2 emission estimates from bottom-trawled sediments. The latter reports 4.35 and 0.64 Tg C year-1 to be released from the seabed into upwelling source waters after bottom trawling in the northern (NBUS) and southern (SBUS) subsystems, respectively. Based on these values, we estimated a corresponding nitrate (N) input of 1.39 and 0.47 µmol kg-1 year-1, enhancing source water nitrate concentrations by ~5% and ~2%. Trawl-induced nitrate input into the sunlit surface could support a new production of 3.14 and 0.47 Tg C year-1 in the NBUS and SBUS, respectively, recapturing only 2/3 of CO2 released after bottom trawling into biomass, mainly due to differences in stoichiometric C:N ratios between the sediment (~9) and surface biomass (Redfield, 6.6). The remaining benthic CO2 can thereby lead to an increase in surface CO2 concentration and its partial pressure (pCO2), impeding CO2 uptake of the biological carbon pump in the BUS by 1.3 Tg C year-1, of which 1 Tg C year-1 is emitted to the atmosphere across the northern subsystem. Our results demonstrate the extent to which bottom trawling may affect the CO2 storage potential of coastal sediments on a basin-wide level, highlighting the need to better resolve small-scale sediment characteristics and C:N ratios to refine trawl-induced benthic carbon and nutrient effluxes within the BUS. [ABSTRACT FROM AUTHOR]

Published

2024

5. The influence of zooplankton and oxygen on the particulate organic carbon flux in the Benguela Upwelling System

Author

Meiritz, Luisa Chiara, Rixen, Tim, van der Plas, Anja K., Lamont, Tarron, Lahajnar, Niko, Meiritz, Luisa Chiara, Rixen, Tim, van der Plas, Anja K., Lamont, Tarron, and Lahajnar, Niko

Abstract

We conducted extensive sediment trap experiments in the Benguela Upwelling System (BUS) in the south-eastern Atlantic Ocean to study the influence of zooplankton on the flux of particulate organic carbon (POC) through the water column and its sedimentation. Two long term moored and sixteen short term free-floating sediment trap systems were deployed. The mooring experiments were conducted for several years and the sixteen drifters were deployed on three different research cruises between 2019 and 2021. Zooplankton was separated from the trapped material and divided into 8 different zooplankton groups. In contrast to zooplankton which actively carries POC into the traps in the form of biomass (active POC flux), the remaining fraction of the trapped material was assumed to fall passively into the traps along with sinking particles (passive POC flux). The results show, in line with other studies, that copepods dominate the active POC flux, with the active POC flux in the southern BUS (sBUS) being about three times higher than in the northern BUS (nBUS). In contrast, the differences between the passive POC fluxes in the nBUS and sBUS were small. Despite large variations, which reflected the variability within the two subsystems, the mean passive POC fluxes from the drifters and the moored traps could be described using a common POC flux attenuation equation. However, the almost equal passive POC flux, on the one hand, and large variations in the POC concentration in the surface sediments between the nBUS and sBUS, on the other hand, imply that factors others than the POC supply exert the main control on POC sedimentation in the BUS. The varying intensity of the near-bottom oxygen minimum zone (OMZ), which is more pronounced in the nBUS than in the sBUS, could in turn explain the differences in the sediments, as the lack of oxygen reduces the POC degradation. Hence, globally expanding OMZs might favour POC sedimentation in regions formerly exposed to oxygenated bottom wa

Published

2024

6. Physical drivers of Southwest African coastal upwelling and its response to climate variability and change

Author

von Maltitz, Graham, Midgleiy, Guy F., Veitch, Jennifer, Brümmer, Christian, Rötter, Reimund, Viehberg, Finn, Veste, Maik, Brandt, Peter, Bordbar, Mohammad Hadi, Coelho, Paulo, Imbol Koungue, Rodrigue Anicet, Körner, Mareike, Lamont, Tarron, Lübbecke, Joke F., Mohrholz, Volker, Prigent, Arthur, Roch, Marisa, Schmidt, Martin, van der Plas, Anja K., von Maltitz, Graham, Midgleiy, Guy F., Veitch, Jennifer, Brümmer, Christian, Rötter, Reimund, Viehberg, Finn, Veste, Maik, Brandt, Peter, Bordbar, Mohammad Hadi, Coelho, Paulo, Imbol Koungue, Rodrigue Anicet, Körner, Mareike, Lamont, Tarron, Lübbecke, Joke F., Mohrholz, Volker, Prigent, Arthur, Roch, Marisa, Schmidt, Martin, and van der Plas, Anja K.

Abstract

The southeastern tropical Atlantic hosts a coastal upwelling system characterized by high biological productivity. Three subregions can be distinguished based on differences in the physical climate: the tropical Angolan and the northern and southern Benguela upwelling systems (tAUS, nBUS, sBUS). The tAUS, which is remotely forced via equatorial and coastal trapped waves, can be characterized as a mixing-driven system, where the wind forcing plays only a secondary role. The nBUS and sBUS are both forced by alongshore winds and offshore cyclonic wind stress curl. While the nBUS is a permanent upwelling system, the sBUS is impacted by the seasonal cycle of alongshore winds. Interannual variability in the region is dominated by Benguela Niños and Niñas that are warm and cold events observed every few years in the tAUS and nBUS. Decadal and multidecadal variations are reported for sea surface temperature and salinity, stratification and subsurface oxygen. Future climate warming is likely associated with a southward shift of the South Atlantic wind system. While the mixing-driven tAUS will most likely be affected by warming and increasing stratification, the nBUS and sBUS will be mostly affected by wind changes with increasing winds in the sBUS and weakening winds in the northern nBUS.

Published

2024

7. Regional and global impact of CO2 uptake in the Benguela Upwelling System through preformed nutrients.

Author

Siddiqui, Claire, Rixen, Tim, Lahajnar, Niko, Van der Plas, Anja K., Louw, Deon C., Lamont, Tarron, and Pillay, Keshnee

Abstract

Eastern Boundary Upwelling Systems (EBUS) are highly productive ecosystems. However, being poorly sampled and represented in global models, their role as atmospheric CO2 sources and sinks remains elusive. In this work, we present a compilation of shipboard measurements over the past two decades from the Benguela Upwelling System (BUS) in the southeast Atlantic Ocean. Here, the warming effect of upwelled waters increases CO2 partial pressure (pCO2) and outgassing in the entire system, but is exceeded in the south through biologically-mediated CO2 uptake through biologically unused, so-called preformed nutrients supplied from the Southern Ocean. Vice versa, inefficient nutrient utilization leads to preformed nutrient formation, increasing pCO2 and counteracting human-induced CO2 invasion in the Southern Ocean. However, preformed nutrient utilization in the BUS compensates with ~22–75 Tg C year−1 for 20–68% of estimated natural CO2 outgassing in the Southern Ocean’s Atlantic sector (~ 110 Tg C year−1), implying the need to better resolve global change impacts on the BUS to understand the ocean’s role as future sink for anthropogenic CO2.Consumption of biologically unused, ‘preformed’ nutrients in the Benguela Upwelling System drive a more efficient regional CO2 uptake, and can compensate for 20–68% of natural CO2 outgassing in the Southern Ocean’s Atlantic sector. [ABSTRACT FROM AUTHOR]

Published

2023

8. Giant sulfur bacteria (Beggiatoaceae) from sediments underlying the Benguela upwelling system host diverse microbiomes

Author

Flood, Beverly E., primary, Louw, Deon C., additional, Van der Plas, Anja K., additional, and Bailey, Jake V., additional

Published

2021

9. System controls of coastal and open ocean oxygen depletion

Author

Pitcher, Grant C., Aguirre-velarde, Arturo, Breitburg, Denise, Cardich, Jorge, Carstensen, Jacob, Conley, Daniel J., Dewitte, Boris, Engel, Anja, Espinoza-morriberón, Dante, Flores, Georgina, Garçon, Véronique, Graco, Michelle, Grégoire, Marilaure, Gutiérrez, Dimitri, Martin Hernandez-ayon, José, May Huang, Huai-hsuan, Isensee, Kirsten, Elena Jacinto, María, Levin, Lisa, Lorenzo, Alberto, Machu, Eric, Merma, Lander, Montes, Ivonne, Swa, Naqvi, Paulmier, Aurelien, Roman, Michael, Rose, Kenneth, Hood, Raleigh, Rabalais, Nancy N., Gro V. Salvanves, Anne, Salvatteci, Renato, Sánchez, Sonia, Sifeddine, Abdelfettah, Wahab Tall, Abdoul, Van Der Plas, Anja K., Yasuhara, Moriaki, Zhang, Jing, Zhu, Zy, Pitcher, Grant C., Aguirre-velarde, Arturo, Breitburg, Denise, Cardich, Jorge, Carstensen, Jacob, Conley, Daniel J., Dewitte, Boris, Engel, Anja, Espinoza-morriberón, Dante, Flores, Georgina, Garçon, Véronique, Graco, Michelle, Grégoire, Marilaure, Gutiérrez, Dimitri, Martin Hernandez-ayon, José, May Huang, Huai-hsuan, Isensee, Kirsten, Elena Jacinto, María, Levin, Lisa, Lorenzo, Alberto, Machu, Eric, Merma, Lander, Montes, Ivonne, Swa, Naqvi, Paulmier, Aurelien, Roman, Michael, Rose, Kenneth, Hood, Raleigh, Rabalais, Nancy N., Gro V. Salvanves, Anne, Salvatteci, Renato, Sánchez, Sonia, Sifeddine, Abdelfettah, Wahab Tall, Abdoul, Van Der Plas, Anja K., Yasuhara, Moriaki, Zhang, Jing, and Zhu, Zy

Abstract

The epoch of the Anthropocene, a period during which human activity has been the dominant influence on climate and the environment, has witnessed a decline in oxygen concentrations and an expansion of oxygen-depleted environments in both coastal and open ocean systems since the middle of the 20th century. This paper provides a review of system-specific drivers of low oxygen in a range of case studies representing marine systems in the open ocean, on continental shelves, in enclosed seas and in the coastal environment. Identification of similar and contrasting responses within and across system types and corresponding oxygen regimes is shown to be informative both in understanding and isolating key controlling processes and provides a sound basis for predicting change under anticipated future conditions. Case studies were selected to achieve a balance in system diversity and global coverage. Each case study describes system attributes, including the present-day oxygen environment and known trends in oxygen concentrations over time. Central to each case study is the identification of the physical and biogeochemical processes that determine oxygen concentrations through the tradeoff between ventilation and respiration. Spatial distributions of oxygen and time series of oxygen data provide the opportunity to identify trends in oxygen availability and have allowed various drivers of low oxygen to be distinguished through correlative and causative relationships. Deoxygenation results from a complex interplay of hydrographic and biogeochemical processes and the superposition of these processes, some additive and others subtractive, makes attribution to any particular driver challenging. System-specific models are therefore required to achieve a quantitative understanding of these processes and of the feedbacks between processes at varying scales.

Published

2021

10. Spatial and biomass structure of shallow-water cape hake (Merluccius capensis) in the light of episodic environmental shifts

Author

Agencia Estatal de Investigación (España), Bahamon, Nixon, Kathena, Johannes N., van der Plas, Anja K., Kainge, Paulus, Paramo, Jorge, Gordoa, Ana, Agencia Estatal de Investigación (España), Bahamon, Nixon, Kathena, Johannes N., van der Plas, Anja K., Kainge, Paulus, Paramo, Jorge, and Gordoa, Ana

Abstract

The spatial distribution patterns of Merluccius capensis in the Namibian waters were investigated and related to average environmental conditions during 1996–2020. Fisheries-independent data and simultaneously collected water temperature and dis- solved oxygen data were used from austral summer surveys. A geostatistical kriging approach was employed to evaluate the spatial structure of hakes. Links to environ- mental conditions were explored via data-driven generalized additive models (GAMs). M. capensis generally exhibited average patch sizes between 40 and 50 nm at depths between 180 and 280 m. During the extreme episodic water warming in 2011 related to a Benguela-Niño, the hake patches shrank up to a historical minimum of about 13 nm and moved offshore showing maximum densities at unusual deeper bottoms between 260 and 320 m. The deepening and size reduction of aggregations did not alter the biomass estimates (570 kt) that remained within historical ranges (249–811 kt). Although other extremely warm and cold summers were reported dur- ing the study period, no significant impact on the M. capensis patch size was detected. Maximum M. capensis densities were linked to optimal bottom temperature range between 10.1 and 11.8C, dissolved oxygen values close to zero nearshore, and between 0.8 and 1.4 ml/L offshore. Potential changes of biomass produced by extreme environmental events remained undetected within the interannual biomass ranges, suggesting a high resilience capacity to episodic extreme environmental events.

Published

2021

11. Global perspectives on observing ocean boundary current systems

Author

Todd, Robert E., Chavez, Francisco P., Clayton, Sophie A., Cravatte, Sophie, Goes, Marlos Pereira, Graco, Michelle, Lin, Xiaopei, Sprintall, Janet, Zilberman, Nathalie, Archer, Matthew, Arístegui, Javier, Balmaseda, Magdalena A., Bane, John M., Baringer, Molly O., Barth, John A., Beal, Lisa M., Brandt, Peter, Calil, Paulo H. R., Campos, Edmo, Centurioni, Luca R., Chidichimo, Maria Paz, Cirano, Mauro, Cronin, Meghan F., Curchitser, Enrique N., Davis, Russ E., Dengler, Marcus, deYoung, Brad, Dong, Shenfu, Escribano, Ruben, Fassbender, Andrea, Fawcett, Sarah E., Feng, Ming, Goni, Gustavo J., Gray, Alison R., Gutiérrez, Dimitri, Hebert, Dave, Hummels, Rebecca, Ito, Shin-ichi, Krug, Marjolaine, Lacan, Francois, Laurindo, Lucas, Lazar, Alban, Lee, Craig M., Lengaigne, Matthieu, Levine, Naomi M., Middleton, John, Montes, Ivonne, Muglia, Michael, Nagai, Takeyoshi, Palevsky, Hilary I., Palter, Jaime B., Phillips, Helen E., Piola, Alberto R., Plueddemann, Albert J., Qiu, Bo, Rodrigues, Regina, Roughan, Moninya, Rudnick, Daniel L., Rykaczewski, Ryan R., Saraceno, Martin, Seim, Harvey E., Sen Gupta, Alexander, Shannon, Lynne, Sloyan, Bernadette M., Sutton, Adrienne J., Thompson, LuAnne, van der Plas, Anja K., Volkov, Denis L., Wilkin, John L., Zhang, Dongxiao, Zhang, Linlin, Todd, Robert E., Chavez, Francisco P., Clayton, Sophie A., Cravatte, Sophie, Goes, Marlos Pereira, Graco, Michelle, Lin, Xiaopei, Sprintall, Janet, Zilberman, Nathalie, Archer, Matthew, Arístegui, Javier, Balmaseda, Magdalena A., Bane, John M., Baringer, Molly O., Barth, John A., Beal, Lisa M., Brandt, Peter, Calil, Paulo H. R., Campos, Edmo, Centurioni, Luca R., Chidichimo, Maria Paz, Cirano, Mauro, Cronin, Meghan F., Curchitser, Enrique N., Davis, Russ E., Dengler, Marcus, deYoung, Brad, Dong, Shenfu, Escribano, Ruben, Fassbender, Andrea, Fawcett, Sarah E., Feng, Ming, Goni, Gustavo J., Gray, Alison R., Gutiérrez, Dimitri, Hebert, Dave, Hummels, Rebecca, Ito, Shin-ichi, Krug, Marjolaine, Lacan, Francois, Laurindo, Lucas, Lazar, Alban, Lee, Craig M., Lengaigne, Matthieu, Levine, Naomi M., Middleton, John, Montes, Ivonne, Muglia, Michael, Nagai, Takeyoshi, Palevsky, Hilary I., Palter, Jaime B., Phillips, Helen E., Piola, Alberto R., Plueddemann, Albert J., Qiu, Bo, Rodrigues, Regina, Roughan, Moninya, Rudnick, Daniel L., Rykaczewski, Ryan R., Saraceno, Martin, Seim, Harvey E., Sen Gupta, Alexander, Shannon, Lynne, Sloyan, Bernadette M., Sutton, Adrienne J., Thompson, LuAnne, van der Plas, Anja K., Volkov, Denis L., Wilkin, John L., Zhang, Dongxiao, and Zhang, Linlin

Abstract

© The Author(s), 2019. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Todd, R. E., Chavez, F. P., Clayton, S., Cravatte, S., Goes, M., Greco, M., Ling, X., Sprintall, J., Zilberman, N., V., Archer, M., Aristegui, J., Balmaseda, M., Bane, J. M., Baringer, M. O., Barth, J. A., Beal, L. M., Brandt, P., Calil, P. H. R., Campos, E., Centurioni, L. R., Chidichimo, M. P., Cirano, M., Cronin, M. F., Curchitser, E. N., Davis, R. E., Dengler, M., deYoung, B., Dong, S., Escribano, R., Fassbender, A. J., Fawcett, S. E., Feng, M., Goni, G. J., Gray, A. R., Gutierrez, D., Hebert, D., Hummels, R., Ito, S., Krug, M., Lacan, F., Laurindo, L., Lazar, A., Lee, C. M., Lengaigne, M., Levine, N. M., Middleton, J., Montes, I., Muglia, M., Nagai, T., Palevsky, H., I., Palter, J. B., Phillips, H. E., Piola, A., Plueddemann, A. J., Qiu, B., Rodrigues, R. R., Roughan, M., Rudnick, D. L., Rykaczewski, R. R., Saraceno, M., Seim, H., Sen Gupta, A., Shannon, L., Sloyan, B. M., Sutton, A. J., Thompson, L., van der Plas, A. K., Volkov, D., Wilkin, J., Zhang, D., & Zhang, L. Global perspectives on observing ocean boundary current systems. Frontiers in Marine Science, 6, (2010); 423, doi: 10.3389/fmars.2019.00423., Ocean boundary current systems are key components of the climate system, are home to highly productive ecosystems, and have numerous societal impacts. Establishment of a global network of boundary current observing systems is a critical part of ongoing development of the Global Ocean Observing System. The characteristics of boundary current systems are reviewed, focusing on scientific and societal motivations for sustained observing. Techniques currently used to observe boundary current systems are reviewed, followed by a census of the current state of boundary current observing systems globally. The next steps in the development of boundary current observing systems are considered, leading to several specific recommendations., RT was supported by The Andrew W. Mellon Foundation Endowed Fund for Innovative Research at WHOI. FC was supported by the David and Lucile Packard Foundation. MGo was funded by NSF and NOAA/AOML. XL was funded by China’s National Key Research and Development Projects (2016YFA0601803), the National Natural Science Foundation of China (41490641, 41521091, and U1606402), and the Qingdao National Laboratory for Marine Science and Technology (2017ASKJ01). JS was supported by NOAA’s Global Ocean Monitoring and Observing Program (Award NA15OAR4320071). DZ was partially funded by the Joint Institute for the Study of the Atmosphere and Ocean (JISAO) under NOAA Cooperative Agreement NA15OAR4320063. BS was supported by IMOS and CSIRO’s Decadal Climate Forecasting Project. We gratefully acknowledge the wide range of funding sources from many nations that have enabled the observations and analyses reviewed here.

Published

2019

12. Spatio-Temporal Variability of Copepod Abundance along the 20°S Monitoring Transect in the Northern Benguela Upwelling System from 2005 to 2011

Author

Bode, Maya, primary, Kreiner, Anja, additional, van der Plas, Anja K., additional, Louw, Deon C., additional, Horaeb, Richard, additional, Auel, Holger, additional, and Hagen, Wilhelm, additional

Published

2014

13. The role of open ocean boundary forcing on seasonal to decadal-scale variability and long-term change of natural shelf hypoxia

Author

Monteiro, Pedro M S, primary, Dewitte, Boris, additional, Scranton, Mary I, additional, Paulmier, Aurélien, additional, and van der Plas, Anja K, additional

Published

2011