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pro vyhledávání: '"Jennifer M. Ayers"'
Autor:
Kenneth E. Richter, Jennifer M. Ayers
Publikováno v:
Applied Sciences, Vol 8, Iss 12, p 2628 (2018)
Here we present an approach to predicting sediment microbial fuel cell performance based on environmental conditions. Sediment total organic carbon and water temperature were found to be important determinants in predicting the power output from micr
Externí odkaz:
https://doaj.org/article/d31109a8174e436489dbf662aa2e7039
Publikováno v:
OCEANS 2021: San Diego – Porto.
Publikováno v:
Geophysical Research Letters. 41:5060-5067
The Indonesian throughflow (ITF) is a chokepoint in the upper ocean thermohaline circulation, carrying Pacific waters through the strongly mixed Indonesian Seas and into the Indian Ocean. Yet the influence of the ITF on biogeochemical fluxes into the
Autor:
Jennifer M. Ayers, Peter G. Strutton
Publikováno v:
Geophysical Research Letters. 40:3419-3423
As the primary source of nutrients to the global thermocline, Subantarctic Mode Waters (SAMWs) play a key role in primary production and climate. Here we use repeat hydrographic World Ocean Circulation Experiment/Climate Variability and Predictabilit
Autor:
Chuck Katz, Jon Oiler, Peter Salamon, Thomas Wilson, Melissa Grover, Andy Sybrandy, Bart Chadwick, John Radford, Jennifer M. Ayers
Publikováno v:
OCEANS 2016 MTS/IEEE Monterey.
Source assessment and control is critical challenge for investments in sediment cleanup as well as in the prevention of future contaminated sediment liabilities. The ubiquitous and non-point source nature of these sources make them difficult to effec
Autor:
Jennifer M. Ayers, Kenneth E. Richter
Publikováno v:
OCEANS 2016 MTS/IEEE Monterey.
This work explores the potential of ocean renewable energy technologies to support persistent oceanographic sensing. We consider two cases: (1) energy from currents in four straits in the Philippines, extracted by a small-scale turbine, and (2) energ
Autor:
Jennifer M. Ayers, M. Susan Lozier
Publikováno v:
Journal of Geophysical Research: Oceans. 117
[1] A broad swath across the North Pacific basin uptakes a disproportionately large amount of atmospheric CO2every year, with the region of most intense uptake located in the North Pacific transition zone, from ∼30°N to 40°N–45°N. Though a net
Autor:
M. Susan Lozier, Jennifer M. Ayers
Publikováno v:
Journal of Geophysical Research. 115
[1] The large seasonal migration of the transition zone chlorophyll front (TZCF) is of interest because a number of marine fauna, both commercial and endangered, appear to track it. Herein we examine the physical dynamics driving this seasonal migrat