Your search keyword '"Kenneth S. Johnson"' showing total 10 results

1. Extratropical storms induce carbon outgassing over the Southern Ocean

Author

Magdalena M. Carranza, Matthew. C. Long, Alejandro Di Luca, Andrea J. Fassbender, Kenneth S. Johnson, Yui Takeshita, Precious Mongwe, and Katherine E. Turner

Subjects

Environmental sciences, GE1-350, Meteorology. Climatology, QC851-999

Abstract

Abstract The strength and variability of the Southern Ocean carbon sink is a significant source of uncertainty in the global carbon budget. One barrier to reconciling observations and models is understanding how synoptic weather patterns modulate air-sea carbon exchange. Here, we identify and track storms using atmospheric sea level pressure fields from reanalysis data to assess the role that storms play in driving air-sea CO2 exchange. We examine the main drivers of CO2 fluxes under storm forcing and quantify their contribution to Southern Ocean annual air-sea CO2 fluxes. Our analysis relies on a forced ocean-ice simulation from the Community Earth System Model, as well as CO2 fluxes estimated from Biogeochemical Argo floats. We find that extratropical storms in the Southern Hemisphere induce CO2 outgassing, driven by CO2 disequilibrium. However, this effect is an order of magnitude larger in observations compared to the model and caused by different reasons. Despite large uncertainties in CO2 fluxes and storm statistics, observations suggest a pivotal role of storms in driving Southern Ocean air-sea CO2 outgassing that remains to be well represented in climate models, and needs to be further investigated in observations.

Published

2024

2. Author Correction: Extratropical storms induce carbon outgassing over the Southern Ocean

Author

Magdalena M. Carranza, Matthew. C. Long, Alejandro Di Luca, Andrea J. Fassbender, Kenneth S. Johnson, Yui Takeshita, Precious Mongwe, and Katherine E. Turner

Subjects

Environmental sciences, GE1-350, Meteorology. Climatology, QC851-999

Published

2024

3. A census of quality-controlled Biogeochemical-Argo float measurements

Author

Adam C. Stoer, Yuichiro Takeshita, Tanya Lea Maurer, Charlotte Begouen Demeaux, Henry C. Bittig, Emmanuel Boss, Hervé Claustre, Giorgio Dall’Olmo, Christopher Gordon, Blair John William Greenan, Kenneth S. Johnson, Emanuele Organelli, Raphaëlle Sauzède, Catherine Marie Schmechtig, and Katja Fennel

Subjects

biogeochemical cycles, ocean observation, best practices, remote sensing, data processing, quality assurance, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Biogeochemical- (BGC-) Argo aims to deploy and maintain a global array of autonomous profiling floats to monitor ocean biogeochemistry. With over 250,000 profiles collected so far, the BGC-Argo network is rapidly expanding toward the target of a sustained fleet of 1,000 floats. These floats prioritize the measurement of six key properties: oxygen, nitrate, pH, chlorophyll-a, suspended particles, and downwelling light. To assess the current biogeochemical state of the ocean, its variability, and trends with confidence, it is crucial to quality control these measurements. Accordingly, BGC-Argo maintains a quality control system using manual inspection and parameter-specific algorithms for flagging and adjusting data. In this study, we provide a census of the quantity and quality of measurements from BGC-Argo based on their quality flagging system. The purpose of this census is to assess the current status of the array in terms of data quality, how data quality has changed over time, and to provide a better understanding of the quality-controlled data to current and future users. Alongside increasing profile numbers and spatial coverage, we report that for most parameters between 80 and 95% of the profiles collected so far contain high-quality BGC data, with an exception for pH. The quality of pH profiles has seen a large improvement in the last five years and is on track to match the data quality of other BGC parameters. We highlight how BGC-Argo is improving and discuss strategies to increase the quality and quantity of BGC profiles available to users. This census shows that tracking percentages of high-quality data through time is useful for monitoring float sensor technology and helpful for ensuring the long-term success of BGC-Argo.

Published

2023

4. The Deep Ocean's Carbon Exhaust

Author

Haidi Chen, F. Alexander Haumann, Lynne D. Talley, Kenneth S. Johnson, and Jorge L. Sarmiento

Published

2022

5. Southern Ocean Acidification Revealed by Biogeochemical‐Argo Floats

Author

Matthew R. Mazloff, Ariane Verdy, Sarah T. Gille, Kenneth S. Johnson, Bruce D. Cornuelle, and Jorge Sarmiento

Subjects

Geophysics, Space and Planetary Science, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Oceanography

Published

2023

6. Identity and Pathogenicity of Fungi Associated with Root, Crown, and Vascular Symptoms Related to Winter Squash Yield Decline

Author

Kenneth S. Johnson, Javier F. Tabima, A. G. Stone, and Hannah M Rivedal

Subjects

Virulence, Crown (botany), food and beverages, Plant Science, Biology, biology.organism_classification, food.food, WINTER SQUASH, Root crown, Horticulture, food, Cucurbita, Yield (wine), Fusarium oxysporum, Root rot, Agronomy and Crop Science, Fusarium solani, Cucurbita maxima, Plant Diseases

Abstract

Winter squash (Cucurbita maxima cultivar Golden Delicious) produced in Oregon’s Willamette Valley for edible seed production has experienced significant yield losses because of a soilborne disease. The symptoms associated with this disease problem include root rot, crown rot, and vascular discoloration in the stems, leading to a severe late season wilt and plant collapse. Through field surveys, Fusarium oxysporum, F. solani, F. culmorum-like fungi, Plectosphaerella cucumerina, and Setophoma terrestris were identified to be associated with diseased tissues, and each produced symptoms of root rot, crown rot, or stem discoloration in preliminary pathogenicity trials. In this study, 219 isolates of these species were characterized by molecular identity analyses using BLAST of the internal transcribed spacer and translation elongation factor 1 alpha genomic regions and by pathogenicity testing in outdoor, large-container trials. Molecular identity analyses confirmed the identity of isolates at 99 to 100% similarity to reference isolates in the database. In pathogenicity experiments, F. solani produced the most severe symptoms, followed by F. culmorum-like fungi, F. oxysporum, P. cucumerina, and S. terrestris. Some treatments of mixed-species inoculum produced symptom severity greater than what was expected from individual species. In particular, the mixture of F. culmorum-like fungi, F. oxysporum, and P. cucumerina and the mixture of F. culmorum-like fungi, F. solani, and S. terrestris had symptom ratings as high as that of F. solani by itself. Results indicate that this soilborne disease is caused primarily by Fusarium solani, but interactions between the complex of F. solani, F. culmorum-like fungi, F. oxysporum, and P. cucumerina can exacerbate disease severity.

Published

2022

7. Carbon to Nitrogen Uptake Ratios Observed Across the Southern Ocean by the SOCCOM Profiling Float Array

Author

Kenneth S. Johnson, Matthew R. Mazloff, Mariana B. Bif, Yuichiro Takeshita, Hans W. Jannasch, Tanya L. Maurer, Joshua N. Plant, Ariane Verdy, Peter M. Walz, Stephen C. Riser, and Lynne D. Talley

Subjects

Geophysics, Space and Planetary Science, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Oceanography

Published

2022

8. Indo‐Pacific Sector Dominates Southern Ocean Carbon Outgassing

Author

Channing J. Prend, Alison R. Gray, Lynne D. Talley, Sarah T. Gille, F. Alexander Haumann, Kenneth S. Johnson, Stephen C. Riser, Isabella Rosso, Jade Sauvé, and Jorge L. Sarmiento

Subjects

Climate Action, Atmospheric Science, Global and Planetary Change, Geochemistry, upper ocean and mixed layer processes, Meteorology & Atmospheric Sciences, Environmental Chemistry, carbon cycling, Oceanography, Life Below Water, air-sea interactions, Atmospheric Sciences, General Environmental Science

Published

2022

9. The Global Ocean Biogeochemistry (GO-BGC) Array of Profiling Floats to Observe Changing Ocean Chemistry and Biology

Author

George I. Matsumoto, Kenneth S. Johnson, Steve Riser, Lynne Talley, Susan Wijffels, and Roberta Hotinski

Subjects

Ocean Engineering, Oceanography

Abstract

The Global Ocean Biogeochemistry (GO-BGC) Array is a project funded by the US National Science Foundation to build a global network of chemical and biological sensors on Argo profiling floats. The network will monitor biogeochemical cycles and ocean health. The floats will collect from a depth of 2,000 meters to the surface, augmenting the existing Argo array that monitors ocean temperature and salinity. Data will be made freely available within a day of being collected via the Argo data system. These data will allow scientists to pursue fundamental questions concerning ocean ecosystems, monitor ocean health and productivity, and observe the elemental cycles of carbon, oxygen, and nitrogen through all seasons of the year. Such essential data are needed to improve computer models of ocean fisheries and climate, to monitor and forecast the effects of ocean warming and ocean acidification on sea life, and to address key questions identified in “Sea Change: 2015‐2025 Decadal Survey of Ocean Sciences” such as: What is the ocean's role in regulating the carbon cycle? What are the natural and anthropogenic drivers of open ocean deoxygenation? What are the consequences of ocean acidification? How do physical changes in mixing and circulation affect nutrient availability and ocean productivity?

Published

2022

10. Effects of Leg Length, Sex, Laterality, and the Intermediate Femoral Cutaneous Nerve on Infrapatellar Innervation

Author

Kenneth S. Johnson, Joanna Rowe, Kanwalgeet Hans, Victoria Gordon, Adam L. Lewis, Clayton Marolt, Gilbert M. Willett, Charles Orth, Sarah Keim-Janssen, and Anthony Olinger

Subjects

Orthopedics and Sports Medicine

Abstract

Background:An iatrogenic injury to the infrapatellar branch of the saphenous nerve (IPBSN) is a common precipitant of postoperative knee pain and hypoesthesia.Purpose:To locate potential safe zones for incision by observing the patterns and pathway of the IPBSN while examining the relationship of its location to sex, laterality, and leg length.Study Design:Descriptive laboratory study.Methods:A total of 107 extended knees from 55 formalin-embalmed cadaveric specimens were dissected. The nerve was measured from palpable landmarks: the patella at the medial (point A) and lateral (point B) borders of the patellar ligament, the medial border of the patellar ligament at the patellar apex (point C) and tibial plateau (point D), the medial epicondyle (point E), and the anterior border of the medial collateral ligament at the tibial plateau (point F). The safe zone was defined as 2 SDs from the mean.Results:Findings indicated significant correlations between leg length and height ( rP= 0.832; P < .001) as well as between leg length and vertical measurements (≥45°) from points A and B to the IPBSN ( rPrange, 0.193-0.285; P range, .004-.049). Male specimens had a more inferior maximum distance from point A to the intersection of the IPBSN and the medial border of the patellar ligament compared with female specimens (6.17 vs 5.28 cm, respectively; P = .049). Right knees had a more posterior IPBSN from point F compared with left knees (–0.98 vs–0.02 cm, respectively; P = .048). The majority of knees (62.6%; n = 67) had a nerve emerging that penetrated the sartorius muscle. Additionally, 32.7% (n = 35) had redundant innervation, and 25.2% (n = 27) had contribution from the intermediate femoral cutaneous nerve (IFCN).Conclusion:We identified no safe zone. Significant innervation redundancy with a substantial contribution to the infrapatellar area from the IFCN was noted and contributed to the expansion of the danger zone.Clinical Relevance:The location of incision and placement of arthroscopic ports might not be as crucial in postoperative pain management as an appreciation of the variance in infrapatellar innervation. The IFCN is a common contributor. Its damage could explain pain refractory to SN blocks and therefore influence anesthetic and analgesic decisions.

Published

2022