Member Since 2012
Nicholas D. Ward
Earth Scientist, Pacific Northwest National Laboratory
AGU Research
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Biological responses to ocean alkalinity enhancement – a lab-based experiment
OCEAN SCIENCES 2024
carbon management | 23 february 2024
Lenaig Hemery, Kristin Jones, Kira Burch, Grace We...
Ocean alkalinity enhancement (OAE) has the potential to mitigate both global carbon dioxide-driven climate change and regional impacts of ocean acidif...
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An Integrative Approach for High Resolution Monitoring of the Interactions Among Water, Soil, and Plants that Establish Gradients in Coastal Ecosystem Function
OCEAN SCIENCES 2024
coastal and estuarine biology and biogeochemistry | 22 february 2024
Nicholas D. Ward, Roy Rich, Stephanie C. Penningto...
Ecosystems along the coastal interface are diverse, spatially heterogeneous, and experience temporally dynamic hydrological conditions that strongly i...
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MRV protocol development for Ebb Carbon’s electrochemical ocean alkalinity enhancement approach to CDR
SCIENCE-BASED GIGATON-SCALE CARBON DIOXIDE REMOVAL (CDR): STRATEGIES FOR MONITORING, MEASUREMENTS, REPORTING, AND VERIFICATION (MMRV) II POSTER
biogeosciences | 14 december 2023
Mallory Ringham, Matthew Eisaman, Brendan Carter, ...
Ocean alkalinity enhancement (OAE) is a promising method for marine carbon dioxide removal (mCDR) that leverages the large surface area and carbon sto...
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X-ray Imaging Across Scales to Understand Environmental System Function
APPLICATIONS OF IMAGING AND SPECTROSCOPY METHODS FOR VISUALIZATION OF PLANT-SOIL-MICROBE INTERACTIONS ACROSS SCALES I ORAL
biogeosciences | 13 december 2023
Ken M. Kemner, Lucie Stetten, Maxim Boyanov, Edwar...
Ecosystem system function is intimately tied to biogeochemical cycling of the elements. Microorganisms, plants, and soil and sediment constituents bio...
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Integrating ecological and hydrological observations, experiments, molecular analyses, and multi-scale modeling to improve our predictive understanding of the terrestrial-aquatic interface
UNCOVERING NOVEL MICROBIAL MECHANISMS AND INTEGRATING THEM INTO ECOSYSTEM MODELS I ORAL
biogeosciences | 13 december 2023
Michael N. Weintraub, Moses Adebayo, Roberta Bitte...
Terrestrial-aquatic interfaces (TAIs) are extensive landscape features that disproportionately regulate ecosystem function compared to their surface a...
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Biogeochemical constraints on redox dynamics in coastal soils
UNCOVERING NOVEL MICROBIAL MECHANISMS AND INTEGRATING THEM INTO ECOSYSTEM MODELS II POSTER
biogeosciences | 13 december 2023
Kaizad F. Patel, Kenton A. Rod, Jianqiu Zheng, Ken...
The coastal terrestrial-aquatic interface (TAI) is a highly dynamic system characterized by strong physical, chemical, and biological gradients. In pa...
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Understanding and modeling the mechanisms of coastal vegetation dynamics and ecosystem impacts under changing water levels
FOREST ECOPHYSIOLOGY: FOREST PHYSIOLOGICAL AND ECOLOGICAL PROCESSES FROM MOLECULES TO ECOSYSTEMS I POSTER
biogeosciences | 13 december 2023
Junyan Ding, nategmcdowell, Charles D. Koven, Yil...
Coastal trees are exhibiting globally distributed mortality from anomalous inundation by both fresh and seawater, resulting in replacement of forests ...
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Coastal forest flooding temporarily shifts soil and vegetation carbon cycling regimes
SOILS IN THE ANTHROPOCENE: EXPLORING DIVERGENT PARADIGMS FOR IMPROVED UNDERSTANDING OF ORGANIC MATTER FORMATION AND STABILITY II POSTER
biogeosciences | 12 december 2023
Nicholas D. Ward, Anya Hopple, Moses Adebayo, Vane...
Coastal ecosystems experience highly variable hydrological conditions over time scales from hours to decades. Changes in surface and groundwater eleva...
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