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September 2018

Special Issue on Mathematical Aspects of Physical Oceanography

Oceanography

THE OFFICIAL MAGAZINE OF THE OCEANOGRAPHY SOCIETY

VOL.31, NO.3, SEPTEMBER 2018

SPECIAL ISSUE ON

Mathematical Aspects of

Physical Oceanography

VOL. 31, NO. 3, September 2018

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Oceanography | September 2018

contents

VOL. 31, NO. 3, September 2018

SPECIAL ISSUE ON MATHEMATICAL ASPECTS

OF PHYSICAL OCEANOGRAPHY

FROM THE GUEST EDITORS: Introduction to the Special Issue on

Mathematical Aspects of Physical Oceanography

By A. Constantin and G. Haller

The Value of Asymptotic Theories in Physical Oceanography

By R.S. Johnson

Nonlinear Features of Equatorial Ocean Flows

By D. Henry

On the Vorticity of Mesoscale Ocean Currents

By C.I. Martin

Simplified Models for Equatorial Waves with Vertical Structure

By M.H. Wheeler

Steady Large-Scale Ocean Flows in Spherical Coordinates

By A. Constantin and R.S. Johnson

On a Three-Dimensional Nonlinear Model of Pacific Equatorial Ocean

Dynamics: Velocities and Flow Paths

By B. Basu

Short-Term Predictions of Oceanic Drift

By K.H. Christensen, Ø. Breivik, K.-F. Dagestad, J. Röhrs, and B. Ward

Applying the Stereographic Projection to Modeling of the Flow of the

Antarctic Circumpolar Current

By S.V. Haziot and K. Marynets

REGULAR ISSUE FEATURES

A Multidisciplinary Approach for Generating Globally Consistent Data on

Mesophotic, Deep-Pelagic, and Bathyal Biological Communities

By L.C. Woodall, D.A. Andradi-Brown, A.S. Brierley, M.R. Clark, D. Connelly, R.A. Hall,

K.L. Howell, V.A.I. Huvenne, K. Linse, R.E. Ross, P. Snelgrove, P.V. Stefanoudis,

T.T. Sutton, M. Taylor, T.F. Thornton, and A.D. Rogers

Functioning of Coastal River-Dominated Ecosystems and Implications for

Oil Spill Response: From Observations to Mechanisms and Models

By A.T. Greer, A.M. Shiller, E.E. Hofmann, J.D. Wiggert, S.J. Warner, S.M. Parra,

C. Pan, J.W. Book, D. Joung, S. Dykstra, J.W. Krause, B. Dzwonkowski, I.M. Soto,

M.K. Cambazoglu, A.L. Deary, C. Briseño-Avena, A.D. Boyette, J.A. Kastler, V. Sanial,

L. Hode, U. Nwankwo, L.M. Chiaverano, S.J. O’Brien, P.J. Fitzpatrick, Y.H. Lau,

M.S. Dinniman, K.M. Martin, P. Ho, A.K. Mojzis, S.D. Howden, F.J. Hernandez,

I. Church, T.N. Miles, S. Sponaugle, J.N. Moum, R.A. Arnone, R.K. Cowen, G.A. Jacobs,

O. Schofield, and W.M. Graham

Oceanography | September 2018

Oceanography | Vol.31, No.3

The Oceanography Society

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SPECIAL ISSUE GUEST EDITORS

• ADRIAN CONSTANTIN, University of Vienna

• GEORGE HALLER, ETH Zürich

DEPARTMENTS

QUARTERDECK. Let’s Try Some Math for a Change

By E.S. Kappel

FROM THE PRESIDENT. Policies for a Member-Run Organization

By A.C. Mix

RIPPLE MARKS. Over the Hump: Beleaguered in Whaling Days,

Humpback Whales Chart a New Course in the Gulf of Maine

By C.L. Dybas

104 THE OCEANOGRAPHY CLASSROOM. You Say Color, I Say Colour,

She Says Colugo

By S. Boxall

106 CAREER PROFILES. Anna J. Malek Mercer, Executive Director,

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Oceanography

THE OFFICIAL MAGAZINE OF THE OCEANOGRAPHY SOCIETY

VOL.31, NO.3, SEPTEMBER 2018

SPECIAL ISSUE ON

the Mathematical Aspects of

Physical Oceanography

ON THE COVER

This SeaWiFS image, constructed using data collected on June 13,

2002, highlights the presence of biological activity in the ocean

west of British Columbia’s Queen Charlotte Islands and Alaska’s

Alexander Archipelago. The bright red, green, and turquoise

patches, which indicate high concentrations of chlorophyll, also

make visible a number of eddies in the Pacific Ocean. Image

credit: SeaWiFS Project, NASA/Goddard Space Flight Center,

and ORBIMAGE

Oceanography | September 2018

QUARTERDECK

Let’s Try Some Math

for a Change

Since publication of the first issue of Oceanography in 1988, by far the

majority of articles in the magazine have been descriptive, in keeping

with our mission of “cross-disciplinary communication.” This format

also reflects that our bread and butter is disseminating information on

seagoing programs—observational oceanography.

This issue is a clear departure, where several theoretical ocean-

ographers describe the mathematical aspects of the discipline, phys-

ical oceanography in particular. These writers set aside the modern

emphasis on numerical techniques and focus instead on the fruits of

old-fashioned, pencil-and-paper equation-solving. Observations and

theory are the yin and yang of scientific progress, and our hope is that

these articles will stimulate further discussions, new insights, and

adventurous collaborations.

Ellen S. Kappel, Editor

December 2018

Gulf of San Jorge, Patagonia,

Argentina

March 2019

Scientific Ocean Drilling:

Looking to the Future

June 2019

Salinity Processes in the Upper

ocean Regional Study (SPURS) – 2

September 2019

Partnership for Interdisciplinary

Studies of Coastal Oceans (PISCO)

December 2019

Flow Encountering Abrupt

Topography (FLEAT)

https://tos.org/oceanography

Do you have an idea for a special

issue of Oceanography? Please send

your suggestions to Editor Ellen Kappel

at ekappel@geo-prose.com.

Oceanography

SPECIAL ISSUES

UPCOMING

CALL FOR IDEAS!

Be sure to drop by

TOS Booth #518

at the

AGU 2018 Fall Meeting

December 10–14

Washington, DC

Oceanography | Vol.31, No.3

EDITOR

Ellen S. Kappel

Geosciences Professional Services Inc.

5610 Gloster Road

Bethesda, MD 20816 USA

t: (1) 301-229-2709

ekappel@geo-prose.com

ASSISTANT EDITOR

Vicky Cullen

PO Box 687

West Falmouth, MA 02574 USA

t: (1) 508-548-1027

vcullen@whoi.edu

CONTRIBUTING WRITER

Cheryl Lyn Dybas

cheryl.lyn.dybas@gmail.com

DESIGN/PRODUCTION

Johanna Adams

johanna-adams@cox.net

Oceanography

https://tos.org/oceanography

Oceanography contains peer-reviewed articles that chronicle all aspects of

ocean science and its applications. The journal presents significant research,

noteworthy achievements, exciting new technology, and articles that address

public policy and education and how they are affected by science and technol-

ogy. The overall goal of Oceanography is cross-disciplinary communication in

the ocean sciences.

Oceanography (ISSN 1042-8275) is published by The Oceanography

viduals to copy articles from this magazine for personal use in teaching and

research, and to use figures, tables, and short quotes from the magazine for

republication in scientific books and journals. There is no charge for any of

these uses, but the material must be cited appropriately.

Republication, systemic reproduction, or collective redistribution of any mate-

rial in Oceanography is permitted only with the approval of The Oceanography

Society. Please contact Jennifer Ramarui at info@tos.org.

ASSOCIATE EDITORS

Claudia Benitez-Nelson

University of South Carolina

cbnelson@geol.sc.edu

Ian Brosnan

NASA Ames Research Center

ian.g.brosnan@nasa.gov

Grace Chang

Integral Consulting Inc.

gchang@integral-corp.com

Margaret L. (Peggy) Delaney

University of California, Santa Cruz

delaney@ucsc.edu

Philip N. Froelich

Duke University

froelich@magnet.fsu.edu

Charles H. Greene

Cornell University

chg2@cornell.edu

William Smyth

Oregon State University

smyth@coas.oregonstate.edu

Kiyoshi Suyehiro

Yokohama Institute for Earth

Sciences, JAMSTEC

suyehiro@jamstec.go.jp

Peter Wadhams

University of Cambridge

p.wadhams@damtp.cam.ac.uk

The Oceanography Society was founded in 1988

to advance oceanographic research, technology,

and education, and to disseminate knowledge of

oceanography and its application through research

and education. TOS promotes the broad under-

standing of oceanography, facilitates consensus

building across all the disciplines of the field, and

informs the public about ocean research, innova-

tive technology, and educational opportunities

throughout the spectrum of oceanographic inquiry.

OFFICERS

PRESIDENT: Alan Mix

PRESIDENT-ELECT: Martin Visbeck

PAST-PRESIDENT: Susan Lozier

SECRETARY: Susan Cook

TREASURER: Susan Banahan

COUNCILLORS

AT-LARGE: Dennis McGillicuddy

APPLIED TECHNOLOGY: James Girton

BIOLOGICAL OCEANOGRAPHY: Charles H. Greene

CHEMICAL OCEANOGRAPHY: Peter Sedwick

EDUCATION: Carolyn Scheurle

GEOLOGY AND GEOPHYSICS: Richard Murray

PHYSICAL OCEANOGRAPHY: Magdalena Andres

STUDENT REPRESENTATIVE: Stefanie Mack

EXECUTIVE DIRECTOR

Jennifer Ramarui

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CONTACT INFO

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Oceanography | Vol.31, No.3

Oceanography | September 2018

FROM THE PRESIDENT

Over the past year, The Oceanography Society Council (https://tos.org/governance)

has been addressing several organizational policy issues. Some of our policies and pro-

cedures needed updating because the Society has grown and matured, and government

agency policies have changed. What was appropriate for a small organization when it was

founded 30 years ago may not be a good fit for today’s larger and growing organization that

is much more diverse.

One particular policy issue that has become very public over the past year relates to pro-

fessional ethics, including issues of sexual harassment. This issue has been in the news fre-

quently, touching many organizations. The Oceanography Society has always been a wel-

coming community that emphasizes open expression and exchange of ideas with equal

opportunity and fair treatment of all, free from all forms of discrimination or harassment.

This policy has long been posted on our website (https://tos.org/about). Fortunately, the

TOS Council is not aware of any problems in this area related to TOS activities; however, it

still is imperative that our written policies express our implicit expectations.

To that end, the TOS Council has developed a much more detailed and stronger policy

that provides clear reporting and enforcement mechanisms for claims of harassment while

participating in TOS-supported professional activities. (Note that the new policies also

address publication ethics.) It is important that participants know that TOS has taken

actions to ensure that its activities are as safe and as welcoming as possible. I would like to

thank the Seattle office of the Fisher Phillips law firm, a group with particular expertise in

workplace law, and Jennifer Freyd of the University of Oregon, a psychologist who special-

izes in the study of harassment, sexual violence, and impacts on individuals and institu-

tions, for providing reviews of this TOS policy at no cost.

This policy review and update has also served as a good reminder that TOS is a member-

run organization in which input is always welcome. Our operations and policies are trans-

parent and responsive to the needs and wishes of our members. Your feedback makes TOS

a stronger organization. Thank you!

Alan C. Mix, TOS President

Policies for a

Member-Run Organization

Oceanography | Vol.31, No.3

RIPPLE MARKS: THE STORY BEHIND THE STORY

OVER THE HUMP Beleaguered in Whaling Days,

Humpback Whales Chart a New Course in the Gulf of Maine

BY CHERYL LYN DYBAS

It’s the longest day of the year, summer solstice, in Stellwagen Bank National Marine

Sanctuary 32 km off Provincetown, Massachusetts. The sea is a promenade of hump-

back, finback, and minke whales.

Humpback fins and tails break the ocean’s surface on all sides of the 15 m research

vessel Auk. Aboard ship, an audience with front row seats watches more than

30 humpback whales perform a ballet. A calf born this year peacefully swims along-

side its mother. Suddenly, it twirls up and out of the sea, pirouettes in a full breach,

and sprays sparkling water droplets in all compass directions before slipping beneath

the waves. Other humpbacks lob-tail, lifting their tail fins, or flukes, free of the water

and curving them down in smacks on the surface.

Humpbacks (Megaptera novaeangliae) are baleen whales that filter-feed with

“strainers” made of keratin inside their huge mouths. Adults range from 12 m to

16 m long and weigh about 36,000 kg. Humpbacks have distinctive body shapes,

with long pectoral fins and knobby heads. Males “sing” complex songs lasting 10 to

20 minutes, which they repeat, sometimes for hours. The whale music may have a

role in mating.

Found around the world, humpback whales migrate up to 25,000 km each year.

Humpbacks feed in summer when they’re in northern waters, then migrate to tropical

or subtropical waters to breed and give birth in winter, when they live on fat reserves.

Humpback whales often work in groups to cor-

ral elusive sand lance. Here, six whales emerge

from a jointly created bubble net. Image credit:

Ilya Raskin; NMFS Permit #782-1719.

NET OF WHALE BUBBLES

What are humpbacks eating—and how do

they get enough of it—to tide them over

until the following summer? In the Gulf of

Maine, the answer lies in a cloud of bub-

bles and a tiny fish.

The whales engage in bubble-netting, a

recently discovered means of feeding on

small fish such as sand lance, also called

sand eels. One or more whales sound, or

dive, then exhale together underwater.

When their bubbles reach the surface, they

form a large ring with seafoam in the cen-

ter. The bubble ring becomes a net, trap-

ping countless sand lance. Seconds later,

one—then several—whales surface in the

ring’s center, huge baleen-lined mouths

open, straining the water, or dragging, as

marine biologists call it, for sand lance.

“Humpbacks have large flukes relative

to their size, providing thrust for quick

maneuvers,” says David Wiley, a ceta-

cean biologist and research coordinator

at the Stellwagen Bank National Marine

Oceanography | Vol.31, No.3

Oceanography | September 2018

Sanctuary. “Other baleen whales feed by

rapidly swimming forward, but humpbacks

are adapted for fine-scale movements that

allow them to create bubble nets.”

Humpbacks release the bubbles while

swimming in upward spirals, often during

a behavior called double loops. Double

loops starts with an ascending spiral to

corral fish, then the smack of a fluke on

the ocean surface and a second upward

lunge to capture the corralled prey. The

whales work in teams of two to 10 or more,

emerging at the ocean surface in a boiling

cauldron of open mouths. “The sequence

is as complex as the tool use of apes in

the forest,” says Wiley. He and colleagues

reported bubble netting and double loops

in 2011 in the journal Behaviour.

Further research has uncovered other

new-to-science whale feeding behaviors

such as bottom side-rolls and repetitive

scooping. The findings are detailed in a

2014 paper in Marine Mammal Science

coauthored by Wiley and others. In bottom

side-rolls and repetitive scooping, hump-

backs repeatedly dive to the seafloor,

roll onto their sides, tilt their heads down,

open their mouths, and expand their throat

pleats. They then swim along the bottom,

funneling in sand lance as they go.

Bottom side-rolls are common on

Stellwagen Bank and in the Great South

Channel, a deepwater passage between

Nantucket, Massachusetts, and Georges

Bank to the southeast.

Scientists wondered whether the whales

were bottom side-roll feeding when

they saw scars on the humpbacks’ jaws.

Indeed, humpbacks bottom side-roll for

extended periods wherever sand lance

are common. Research conducted this

summer is revealing new information on

humpbacks’ bottom-feeding techniques.

IT ALL COMES DOWN TO SAND LANCE

What’s driving all the bubble netting and

bottom feeding? Stellwagen Bank, with

its sandy bottom and relatively shallow

waters, is prime habitat for sand lance.

The bank’s abundant sand lance, which

travel in huge schools reaching the tens of

thousands, offer the whales high- calorie

meals. In one day, a whale might eat a ton

of the fish.

At night, sand lance burrow into sandy

sediments or form schools close to the

seafloor. During the day, the fish often

swim in dense mats along the seabed. The

humpbacks’ recently discovered feeding

techniques, especially side-rolling, result

in efficient fish-catching when the whales

Humpback whales blow bubbles to form “fishing nets” that capture sand lance. Image credit: NOAA/

NEFSC/Allison Henry; MMPA research permit #17355

Oceanography | September 2018

Oceanography | Vol.31, No.3

SIDEBAR | Sand Lance: Newcomers to Fishery Management Plans

To explore the role of a tiny fish in the North Atlantic Ocean ecosystem, 55 sci-

entists, natural resource managers, and conservationists attended a sand lance

workshop in May 2017 at the Parker River National Wildlife Refuge in Newburyport,

Massachusetts.

The participants concluded that research is needed into how climate change

may influence the fish, and what effect possible offshore energy development or

sand and gravel mining may have on sand lance.

“We have an opportunity to proactively manage a fish that’s not currently tar-

geted for commercial harvest in the US,” says biologist Lynda Welch of the Maine

Coastal Islands National Wildlife Refuge. She, Wiley, and Michelle Staudinger, sci-

ence coordinator of the Northeast Climate Science Center at the University of

Massachusetts Amherst, were co-organizers of the workshop.

“There’s no active talk—yet—of a sand lance fishery,” says Wiley, “but there’s also

no protection for sand lance or the ‘ecosystem services’ they provide.”

For insights into what a fishery management plan for sand lance might look

like, the scientists are reviewing harvest levels for species with similar ecosystem

roles, such as herring and menhaden in the Northeast and Mid-Atlantic regions.

“Management plans for these ‘forage fish’ must balance the needs of the fish with

those of commercial endeavors,” says Staudinger. “We’d like to see the same

approach for sand lance.”

The researchers say that US fisheries managers can learn from overharvesting

of sand lance in the UK. Uncontrolled fishing for sand lance there led to crashes

of seabirds such as black-legged kittiwakes, which depend on sand lance. To

avoid a repeat, the UK sand lance fishery is now managed as several smaller sub-

populations rather than one overall population. That allows biologists to change

harvest levels based on the presence of seabirds, whales, and other sand lance-

eating species.

The future for North Atlantic humpback whales, says Wiley, depends on a fish so

small it’s a mere glint in the sunlight.

are near the seafloor. One humpback the

researchers studied side-rolled every 6 m.

The maneuver netted 10 to 17 scoops of

fish per dive.

Where sand lance are found in the Gulf

of Maine, so, too, humpbacks. Although

last summer’s research cruise was sched-

uled to depart from Provincetown, the sand

lance—and the whales—took up residence

off a different Cape Cod port, Chatham. To

keep up with the shifting scene, the sci-

entists moved R/V Auk from its berth in

Provincetown to a dock in Chatham. “We

may be all about whales,” says Wiley, “but

they’re all about sand lance. So we look at

where sand lance are concentrated.”

Adds Mike Thompson, a spatial ecol-

ogist at the Stellwagen Bank National

Marine Sanctuary, “Whales, seabirds like

shearwaters, and pretty much anything

looking for a meal here is feeding on

these fish. We’re starting to understand

that on Stellwagen Bank, it all depends on

sand lance.”

To track the fish, Wiley, Thompson, and

crew use the SEABed Observation and

Sampling System, or SEABOSS. This boxy

eye-in-the-sea allows researchers to col-

lect sediment samples and obtain videos

of sand lance seafloor hangouts. Sand

lance surveys are conducted at 44 sta-

tions on or near Stellwagen Bank at vari-

ous times of year, including about a month

before the whale cruise in June.

TO TAG A WHALE

R/V Auk serves as the mother ship of two

smaller boats, the rigid-hulled inflatable

boats (RHIBs) Balena and Luna. Balena

ferries biologists to the center of a whale

pod. There, in an attempt to place a track-

ing tag on a humpback, the researchers

nose up to a whale whose flank, where

the tag will be placed, is exposed.

The digital tag, or DTAG, is attached with

a suction cup. This acoustic recording

tag provides data on the whale’s orienta-

tion (pitch, roll, and heading) and depth—

50 times per second. The DTAG also

records all sounds made and heard by the

tagged whale, says Wiley. Visualization

software

called

TrackPlot

provides

(right) A Cory’s shearwater with a

sand lance in its bill. The slender body

shape of sand lance makes the fish an

ideal prey item for seabirds. Image:

NOAA/SBNMS

(below) Feeding humpback whales

concentrate sand lance at the surface,

where the fish are also eaten by sea-

birds. Image: NOAA/SBNMS; NMFS

permit #782-1719

Oceanography | Vol.31, No.3