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Benoît Pasquier
Benoît Pasquier
Research Associate, School of Mathematics and Statistics, University of New South Wales, Sydney
Verified email at unsw.edu.au - Homepage
Title
Cited by
Cited by
Year
Perspective on identifying and characterizing the processes controlling iron speciation and residence time at the atmosphere-ocean interface
N Meskhidze, C Völker, HA Al-Abadleh, K Barbeau, M Bressac, C Buck, ...
Marine Chemistry 217, 103704, 2019
502019
The biogeochemical balance of oceanic nickel cycling
SG John, RL Kelly, X Bian, F Fu, MI Smith, NT Lanning, H Liang, ...
Nature Geoscience 15 (11), 906-912, 2022
252022
Inverse-model estimates of the ocean's coupled phosphorus, silicon, and iron cycles
B Pasquier, M Holzer
Biogeosciences 14 (18), 4125-4159, 2017
252017
The plumbing of the global biological pump: Efficiency control through leaks, pathways, and time scales
B Pasquier, M Holzer
Journal of Geophysical Research: Oceans 121 (8), 6367-6388, 2016
172016
The age of iron and iron source attribution in the ocean
M Holzer, M Frants, B Pasquier
Global Biogeochemical Cycles 30 (10), 1454-1474, 2016
142016
Evaluating the benefits of bayesian hierarchical methods for analyzing heterogeneous environmental datasets: A case study of marine organic carbon fluxes
GL Britten, Y Mohajerani, L Primeau, M Aydin, C Garcia, WL Wang, ...
Frontiers in Environmental Science 9, 491636, 2021
132021
The number of past and future regenerations of iron in the ocean and its intrinsic fertilization efficiency
B Pasquier, M Holzer
Biogeosciences 15 (23), 7177-7203, 2018
132018
A New Metric of the Biological Carbon Pump: Number of Pump Passages and Its Control on Atmospheric pCO2
M Holzer, EY Kwon, B Pasquier
Global Biogeochemical Cycles 35 (6), e2020GB006863, 2021
102021
Optimal parameters for the ocean's nutrient, carbon, and oxygen cycles compensate for circulation biases but replumb the biological pump
B Pasquier, M Holzer, MA Chamberlain, RJ Matear, NL Bindoff, ...
Biogeosciences 20 (14), 2985-3009, 2023
72023
GNOM v1. 0: an optimized steady-state model of the modern marine neodymium cycle
B Pasquier, SKV Hines, H Liang, Y Wu, SL Goldstein, SG John
Geoscientific Model Development 15 (11), 4625-4656, 2022
42022
AIBECS. jl: A tool for exploring global marine biogeochemical cycles.
B Pasquier, FW Primeau, SG John
Journal of Open Source Software 7 (69), 3814, 2022
42022
The ocean's biological and preformed carbon pumps in future steady-state climate scenarios
B Pasquier, M Holzer, MA Chamberlain
EGUsphere 2023, 1-41, 2023
12023
Iron Fertilization Efficiency and the Number of Past and Future Regenerations of Iron in the Ocean
B Pasquier, M Holzer
AGU Fall Meeting 2018, 2018
12018
Shallow vs Deep: Identifying the magnitude and locations of marine Nd sources with GNOM
PM Wise, B Pasquier, SG John, S Hines
2024 Goldschmidt Conference, 2024
2024
Atmospheric pCO2 Response to Stimulated Organic Carbon Export: Sensitivity Patterns and Timescales
M Holzer, T DeVries, B Pasquier
Geophysical Research Letters 51 (12), e2024GL108462, 2024
2024
Biogeochemical fluxes of nickel in the global oceans inferred from a diagnostic model
SG John, H Liang, B Pasquier, M Holzer, S Silva
Global Biogeochemical Cycles 38 (5), e2023GB008018, 2024
2024
The Ocean's Carbon and Oxygen Cycles in Future Steady-State Climate Scenarios
B Pasquier, M Holzer, M Chamberlain
2024 Ocean Sciences Meeting, 2024
2024
Utilizing a Coarse-Grained Model to Link Dissolved Iron Concentration and the Intracellular Physiology of Phytoplankton
M Bernish, B Pasquier, K Inomura
2024 Ocean Sciences Meeting, 2024
2024
Global distribution of nickel sources and sinks as seen from a diagnostic model
SG John, H Liang, B Pasquier, M Holzer, S Silva
Goldschmidt 2023 Conference, 2023
2023
Quantifying the Dominant Fluxes of the Modern Marine Neodymium Cycle through Model Optimization
PM Wise, L Stott, SG John, B Pasquier
Goldschmidt 2023 Conference, 2023
2023
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Articles 1–20