Michael S Twardowski

Overview

Explore the profile of Michael S Twardowski including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 23

Citations 103

Followers 0

Related Specialties

Ophthalmology

Biophysics

Biology

Top 10 Co-Authors

James M Sullivan

George W Kattawar

Alberto Tonizzo

Molly E Cummings

Alexander A Gilerson

Yu You

Samir A Ahmed

Rudiger Rottgers

David McKee

Heidi M Dierssen

Published In

Opt Express

Appl Opt

Science

Harmful Algae

Limnol Oceanogr

Affiliations

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Recent Articles

Bio-optical inversion scheme based on the radiative transfer equation

Moore T, Kolluru S, Tonizzo A, Twardowski M

Opt Express . 2024 Nov; 32(23):41270-41296. PMID: 39573444

An inversion algorithm based on a forward optical model based on a radiative transfer equation is developed in terms of IOPs with explicit inclusion of the volume scattering function (VSF)....

Corrigendum to Dynamics of microcystins and saxitoxin in the Indian River Lagoon, Florida Harmful Algae 103C (2021) 102012

Laureano-Rosario A, McFarland M, Bradshaw 2nd D, Metz J, Brewton R, Pitts T, et al.

Harmful Algae . 2021 May; 104:102035. PMID: 34023077

No abstract available.

Dynamics of microcystins and saxitoxin in the Indian River Lagoon, Florida

Laureano-Rosario A, McFarland M, Bradshaw 2nd D, Metz J, Brewton R, Pitts T, et al.

Harmful Algae . 2021 May; 103:102012. PMID: 33980451

Harmful algal blooms that can produce toxins are common in the Indian River Lagoon (IRL), which covers ~250 km of Florida's east coast. The current study assessed the dynamics of...

"Breaking" news for the ocean's carbon budget

Nayak A, Twardowski M

Science . 2020 Feb; 367(6479):738-739. PMID: 32054746

No abstract available.

An overview of approaches and challenges for retrieving marine inherent optical properties from ocean color remote sensing

Werdell P, McKinna L, Boss E, Ackleson S, Craig S, Gregg W, et al.

Prog Oceanogr . 2018 Dec; 160:186-212. PMID: 30573929

Ocean color measured from satellites provides daily global, synoptic views of spectral waterleaving reflectances that can be used to generate estimates of marine inherent optical properties (IOPs). These reflectances, namely...

Measurement uncertainties in PSICAM and reflective tube absorption meters

Lefering I, Rottgers R, Utschig C, Twardowski M, McKee D

Opt Express . 2018 Nov; 26(19):24384-24402. PMID: 30469558

The nature and magnitude of measurement uncertainties (precision and accuracy) associated with two approaches for measuring absorption by turbid waters (b(532 nm) ranging from 0.20 m to 22.89 m) are...

Evaluation of a flow cytometry method to determine size and real refractive index distributions in natural marine particle populations

Agagliate J, Rottgers R, Twardowski M, McKee D

Appl Opt . 2018 Mar; 57(7):1705-1716. PMID: 29522024

A flow cytometric (FC) method was developed to retrieve particle size distributions (PSDs) and real refractive index (n) information in natural waters. Geometry and signal response of the sensors within...

Evidence for ubiquitous preferential particle orientation in representative oceanic shear flows

Nayak A, McFarland M, Sullivan J, Twardowski M

Limnol Oceanogr . 2018 Feb; 63(1):122-143. PMID: 29456268

In situ measurements were undertaken to characterize particle fields in undisturbed oceanic environments. Simultaneous, co-located depth profiles of particle fields and flow characteristics were recorded using a submersible holographic imaging...

Assessing uncertainties in scattering correction algorithms for reflective tube absorption measurements made with a WET Labs ac-9

Stockley N, Rottgers R, McKee D, Lefering I, Sullivan J, Twardowski M

Opt Express . 2017 Dec; 25(24):A1139-A1153. PMID: 29220991

In situ absorption measurements collected with a WET Labs ac-9 employing a reflective tube approach were scatter corrected using several possible methods and compared to reference measurements made by a...

10.

Vertically- resolved phytoplankton carbon and net primary production from a high spectral resolution lidar

Schulien J, Behrenfeld M, Hair J, Hostetler C, Twardowski M

Opt Express . 2017 Aug; 25(12):13577-13587. PMID: 28788901

Passive ocean observing sensors are unable to detect subsurface structure in ocean properties, resulting in errors in water column integrated phytoplankton biomass and net primary production (NPP) estimates. Active lidar...