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Member Since 2012
Nicholas D. Ward
Earth Scientist, Pacific Northwest National Laboratory
AGU Research
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Integrated Effects of Site Hydrology and Vegetation on Exchange Fluxes and Nutrient Cycling at a Coastal Terrestrial‐Aquatic Interface
WATER RESOURCES RESEARCH
06 june 2024
Bing Li, Zhi Li, Jianqiu Zheng, Peishi Jiang, Jame...

The complex interactions among soil, vegetation, and site hydrologic conditions driven by precipitation and tidal cycles control the biogeochemical...

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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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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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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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