Biodiversity Data Journal 11: e97864 OO)
doi: 10.3897/BDJ.11.e97864 open access
Research Article

Species associated with whale sharks Rhincodon
typus (Orectolobiformes, Rhincodontidae) in the
Galapagos Archipelago

Sofia M Green, Alex Hearn§:?, Jonathan R Greent

+ Galapagos Whale Shark Project, Puerto Ayora, Ecuador
§ Universidad San Francisco de Quito, Quito, Ecuador

Corresponding author: Sofia M Green (sgreenitu@gmail.com)

Academic editor: Felipe Ottoni

Received: 22 Nov 2022 | Accepted: 17 Feb 2023 | Published: 08 Mar 2023

Citation: Green SM, Hearn A, Green JR (2023) Species associated with whale sharks Rhincodon typus

(Orectolobiformes, Rhincodontidae) in the Galapagos Archipelago. Biodiversity Data Journal 11: e97864.
https://doi.org/10.3897/BDJ.11.e97864

Abstract

Whale sharks Rhincodon typus frequently appear to interact or associate with other
species, which vary depending on the community structure and the demographic of the
whale sharks at each location globally. Here, we present the species sighted frequently
around whale sharks in the Galapagos Archipelago and reported by dive guides and
scientists and also in earlier publications. These associated species include cetacean
species: bottlenose dolphins Tursiops truncatus, other shark species: silky sharks
Carcharhinus falciformis, Galapagos sharks Carcharhinus galapagensis, scalloped
hammerhead sharks Sphyrna lewini, tiger sharks Galeocerdo cuvier and teleost fish
species: remoras Remora remora, yellowfin tuna Thunnus albacares, almaco jacks Seriola
rivoliana and black jacks Caranx lugubris. The recording of interspecies associations and
interactions may lead to better understanding of the natural history of whale sharks and
can show important symbiotic relationships or interdependence between different species.

Keywords

interspecific interactions, natural history, parasitism, species associations, symbiosis

© Green S et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY
4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are
credited.

2 Green S etal

Introduction

The whale shark Rhincodon typus Smith 1828, is a circumglobal tropical and temperate
water species (Rowat and Brooks 2012). It is mostly solitary and pelagic, although it also
forms seasonal feeding aggregations of mostly immature males in at least a dozen (mostly
coastal) sites (e.g. Belize, Heyman et al. (2001); Gulf of Mexico, Hoffmayer et al. (2007);
Tanzania, Rohner et al. (2015)). Several species are known to associate with whale sharks
around the globe, yet they vary across different locations. Bottlenose dolphins Tursiops
truncatus (Montagu, 1821) have been reported swimming with whale sharks or feeding
alongside them in the Gulf of Mexico, Belize, Honduras, the Red Sea and Christmas Island
(Latusek-Nabholz 2014). Cleaning interactions have been reported by Araujo et al. (2020)
of the blue-streak cleaner wrasse Labroides dimidiatus (Valenciennes, 1839) and the moon
wrasse Thalassoma l/unare (Linnaeus, 1758) in the Philippines and by Quimbayo et al.
(2016) of the King Angelfish Holacanthus passer Valenciennes, 1846 in Malpelo Island.
Other associations recorded include suckerfish Remora spp. and Echeneis naucrates
Linnaeus, 1758 in north-western Australia (Norman 1999), schooling fish such as tuna and
mackerels, plus carcharhinid shark species swimming alongside whale sharks off south
Texas (Hoffman et al. 1981) and more tuna species associations in the Atlantic and Indian
Oceans (Escalle et al. 2018). Indeed, until recently, purse-seine vessels would set their
nets around whale sharks, in the knowledge that there would likely be tuna schooling
around them. The use of whale sharks as living Fish Aggregation Devices (FADs) is now
banned by most tuna regional fisheries management organisations (RFMOs), including in
the eastern Pacific (Resolution C-19-06, IATTC 2019) where it is prohibited to set a purse-
seine net around a school of tuna known to be swimming around a living whale shark.

The eastern Pacific hosts the only known whale shark aggregation made up almost
exclusively of large females — the Galapagos Islands (Norman et al. 2017). The first report
of a whale shark in the Galapagos was recorded by William Beebe in 1925 of an individual
swimming under the stern of a boat on the Arcturus expedition (reported in Gudger (1933)).
They continued to be reported occasionally by guides between Floreana and Isabela, in
the Canal Bolivar and around another few spots around the Archipelago (see Fig. 1). Prior
to whale shark-focused tourism, a short note was written of species associated with whale
sharks in the Galapagos Islands by a group of cetacean scientists who spotted four whale
sharks by chance during their tracking of sperm whales off the coast of southwest Isabela
in 1988. They reported sighting these whale sharks with remoras Echeneis spp. around
and in the shark's mouth, hammerhead sharks Sphyma lewini (Griffith & Smith, 1834) and
tiger sharks Galeocerdo cuvier (Peron & Lesueur, 1822) swimming close by (at 10 m
distance) a whale shark and yellowfin tuna Thunnus albacares (Bonnaterre, 1788)
surrounding a whale shark (Arnbom and Papastavrou 1988).

Although seen sporadically throughout the Archipelago, whale sharks occur predictably at
the northernmost Island of Darwin, especially in the months of July through November (
Acuna-Marrero et al. 2014) and have become an important dive tourism attraction for live-
aboard vessels during these months. Since 2011, a team of scientists have led yearly
expeditions to Darwin Island to record whale shark movements, behaviour and to attempt

Species associated with whale sharks Rhincodon typus (Orectolobiformes, ... 3

to establish their reproductive state. The team also began to collect sightings reports from
dive guides from this time. Here, we report on the association of different species with
whale sharks at Darwin and across the Galapagos Marine Reserve, in the Eastern Tropical
Pacific.

() 500 1000km &
(es je |

Figure 1. EES]

Map of sightings of whale sharks (represented in orange) around the Galapagos Archipelago
as reported by dive guides, scientists and fishermen (GWSP-QGIS Development Team 2020).

Methods
Study Site

The Galapagos Archipelago and its Marine Reserve are a UNESCO Natural World
Heritage Site and possess a unique set of characteristics which makes it a hotspot for
biodiversity which must be protected. Its isolation from the continent, lying approximately
1000 km due west of mainland Ecuador and its location straddling the Equator, allows for
species diversification, which has led to its unique wildlife, with 18% of marine species
being endemic (Bustamante et al. 2000). The marine currents that influence the Islands are
also important for the diversity of life on the Islands. The Panama current brings warmer
waters and carries species from the north, the Humboldt Current brings colder waters and
species from the Antarctic and sub-polar region and the Equatorial Under-Current, (also
known as the Cromwell Current) brings cold, nutrient-rich water, which upwells along the
western margins of the Archipelago. This upwelling generates one of the most productive
marine ecosystems in the world (Schaeffer et al. 2008, Smith 2012) which, in turn, attracts
highly migratory species, such as the whale shark.

Darwin and Wolf Islands are in the far northern region of the Archipelago and predictable
seasonal sightings of whale sharks occur between July and December of every year
(Acuna-Marrero et al. 2014).

4 Green S etal

Data Collection

For the past decade (2011-2021), the Galapagos Whale Shark Project has led yearly
expeditions to this area and collected data on the physiology and ecology of whale sharks
and has noted species interactions used for this study. The data collected by the project
team come from performing three dives a day every day for two weeks every year.

Data from dive guides and fishermen were collected informally throughout the years. All
dive live-aboards in the Galapagos have both Darwin and Wolf in their itineraries where
dive guides spend 1-2 days, with 3-4 dives per day, every week in these waters. The dive
guides send sporadic informal reports on some notable encounters they have with whale
sharks and other species. Fishermen data on the other hand come mostly from the
southern and central islands of the Reserve where most of their fishing activities occur. The
data collected from their sightings come from word of mouth accounts.

All data presented in this report were collected between 2010 and 2020, except the
associations recorded by Arnbom and Papastavrou (1988), which we also include in this
note.

During this study, there is mention of species interactions and species associations. For
the purposes of this report, we defined associations as an encounter of a species other
than Rhincodon typus, occurring within 10 m of a whale shark, moving in the same
direction and frequently reported being sighted together or physically interacting with the
shark. Meanwhile, in ecology, species interactions have been defined as the relationship
between two or more species that form an interdependence to some degree. The five
major types of species interactions have been labelled as predation, competition,
mutualism, commensalism and amensalism (Hillis et al. 2011). Thus, species interactions
would be classified as a species association, yet not all associations would be defined as
species interactions.

Results

Nine species, including four other shark species, were found in association with whale
sharks in the Galapagos Islands (Table 1) as reported by the GWSP team, dive guides and
fishermen of the Reserve.

Whale sharks are frequently sighted with other shark species swimming alongside such as
Sphyrna lewini and the aforementioned Carcharhinid sharks. However, C. galapagensis
and C. falciformis have both displayed unusual behaviour around whale sharks not
reported elsewhere. Both Carcharhinus sp. have been sighted rubbing themselves on the
whale sharks’ body and heads on multiple occasions and reported by several Galapagos
National Park Guides and the GWSP scientists. This is supported with photographic and
video evidence as seen in Figure 2. Both shark species are hypothesised to do this for
cleaning purposes, to rid themselves of ectoparasites. Recently, C. galapagensis,
particularly females, have also been sighted trailing close behind whale shark tails in large

Species associated with whale sharks Rhincodon typus (Orectolobiformes, ... 5

groups (4+ individuals, refer to Fig. 2) and displaying agonistic behaviour towards divers

when approaching the whale shark (Sofia M Green, pers. observation).

Table 1.

Species associated with R. typus reported in the Galapagos Marine Reserve.

Common _ Scientific name

Name

1

Species Associated

Silky sharks

Galapagos
sharks

Hammerhead
sharks

Tiger shark

Bottlenose
dolphins

Carcharhinus
falciformis
(Bibron, 1839)

Carcharhinus
galapagensis
(Snodgrass &
Heller, 1905)

Sphyrna lewini
(Griffith &
Smith, 1834)

Galeocerdo
cuvier (Péron &
Lesueur, 1822)

Tursiops
truncatus
(Montagu,
1821)

Common Remora Remora

Black jacks

remora
(Linnaeus,
1758)

Caranx
lugubris Poey,
1860

Report
year

2016-2020

2019,
2020

1988

1988

2018-
2020

1988,
2010-2020

2010-2020

Reported by

GWSP team,
Galapagos
dive guides

GWSP team,
Dive guide:
Paulo Tobar

Arnbom and
Papastavrou
(1988), GWSP
team, dive
guide: Paulo
Tobar

Arnbom and
Papastavrou
(1988)

Dive guide:
Paulo Tobar,
GWSP team

Arnbom and
Papastavrou
(1988), GWSP
team, Dive
guide: Natalia
Cifuentes

GWSP team

# Reports Behaviour

>10

> 20

100+

> 100

> 100

Sighted frequently
rubbing on whale shark’s
body and head.

Observed following
closely behind sharks.
Occasionally also
sighted rubbing on the
body and head of the
whale shark.

Observed swimming
within 10 m of whale
shark and frquently
reported being sighted
together.

Observed swimming
within 10 m of whale
shark.

Sighted bow-riding
whale sharks twice in
2018 and once in 2020.
Frequently observed
swimming around the
shark.

Attached to whale
sharks’ body. Seen
mostly around and inside
the mouth, caudal fin,
pelvic fins of whale
sharks. Additionally,
spotted inside the gill
slits and the cloaca of
adult females. Known to
do so as an efficient
form of transportation
and to feed off of left-
over food particles.

Swim alongside R. typus
, possibly making use of
slipstream.

6 Green S et al

# Species Associated Report Reported by #Reports Behaviour
year
8 Almaco jacks Seriola 2020 GWSP team > 50 Swim alongside R. typus
Say: and fishermen , possibly making use of
rivoliana f
slipstream.
Valenciennes,
1833
9 Yellowfin tuna Thunnus 1988 Arnbom and 1 Surrounding R. typus.
aiRarales Papastavrou
(Bonnaterre,
1788) (1988)

Figure 2. EES]

Association of requiem sharks with whale sharks: a) Image capture from BBC bodycam of a
silky shark C. falciformis rubbing on a whale shark R. typus; b) Image capture of Galapagos
sharks C. galapagensis rubbing on a whale shark and swimming beside it (Photo credit
GWSP).

Associations between dolphins and whale sharks have been reported previously by
Latusek-Nabholz (2014), off the Gulf of Mexico and have been noted again in the
Galapagos Archipelago. Bottlenose dolphins Tursiops truncatus are sighted almost every
day at Darwin Island, leading scientists to believe there may be a resident population (data
deficient). These dolphins are frequently sighted during dives at Darwin Arch.

The GWSP has recorded on a number of occasions, particularly in September 2018 and
August 2020, dolphins swimming alongside the whale shark and seemingly bow riding its
head (Fig. 3). Dive guide Paulo Tobar reported the same behaviour during one of his
expeditions to Darwin in 2018.

Remora or suckerfish associations have also been reported previously associated with
whale sharks around the globe (Colman 1997, Norman 1999, Cohen et al. 2020, Dove and
Pierce 2021). This association has previously been noted in the Galapagos Archipelago by
Arnbom & Papastavrou in 1988 and again by Galapagos National Park guides and
scientists from the GWSP. Common remora’s Remora remora are seen on almost all whale

Species associated with whale sharks Rhincodon typus (Orectolobiformes, ... 7

sharks sighted in the islands. They are generally around and inside the whale shark’s
mouth, gills and cloaca (see Fig. 4).

Figure 3. EES]

Bottlenose dolphins Tursiops truncatus bow riding whale shark's head: a) 2018; b) 2020
(Photo credit GWSP).

Figure 4. EES]

Teleost fish species association: a) Common remoras Remora remora inside the whale
shark’s gills; b) Common remoras on mouth with both jack species swimming around; and c)
Almaco jacks Seriola rivoliana surrounding a whale shark (Photo credit GWSP).

Two species of schooling fish have also been sighted frequently in association with the
whale shark. In the Galapagos Islands, whale sharks are rarely seen without the company
of the Black Jacks Caranx lugubris and also frequently sighted with the Almaco Jack

8 Green S etal

Seriola rivoliana. These fish are usually surrounding the shark and swimming close to its
body (Fig. 4).

Discussion

Associations between different marine species arise naturally from sharing an
environment. In this study, we identified nine species which associate with whale sharks in
the Galapagos Marine Reserve. Only one of these appeared to be a long-term association
— the remoras affixed to the bodies of the sharks. Two shark species interacted physically
with the whale sharks, apparently using their abrasive skin as cleaning tools. The
remainder of the associations did not involve physical contact with the shark, but either
involved swimming close to the body of the shark (as with the jacks and tunas) or utilising
disruptions in water movements caused by the sharks’ movements, as with the dolphins
bow riding or the silky sharks swimming in the slipstream. The agonistic display towards
the diver by the Galapagos shark may hint to a more meaningful significance for this
association with whale sharks. The agonistic behaviour, caused by the rapidly approaching
divers was equivalent to the behaviour initially described by Johnson and Nelson (1973) for
grey reef sharks and later reinforced by Martin (2007) as noted on other Carcharhinus
Blainville, 1816 species.

As mentioned by and reported in this study, the sucker fish species not only attach to the
whale shark, but live in their mouth, gill slits, cloaca, peribranchial cavity and the spiracle.
Although there has been some discussion of whether this symbiosis is mutualistic, parasitic
or commensalistic, we report it as parasitic, defined as the relationship where one
individual benefits at the expense of the other organism, from sightings observed in the
Galapagos. The suckerfish have been observed removing parts from inside the gills,
covering the entire mouth and entering the reproductive areas of the sharks, most likely
causing damage to the whale shark.

Although around the globe, in Australia, Japan, Indonesia and the Philippines, whale
sharks present associations with several other external parastite species, such as
copepods and isopods (Norman et al. 2000, Coetzee et al. 2008, Dove and Pierce 2021)
as has been demonstrated in the literature collation by Dove and Pierce (2021), no
external parasites have been recorded from visual analysis in the Galapagos Islands.

The behaviour of the bottlenose dolphins in the Galapagos, where they are sighted bow
riding the shark, is similar to the behaviour reported in the Gulf of Mexico, Belize,
Honduras, the Red Sea and Christmas Island, where the mammals were sighted
swimming alongside the whale shark (Latusek-Nabholz 2014).

The interactions in each sighting location is based on which species exist naturally in the
area and the habitat use of the whale shark. For instance, earlier we mentioned the
cleaning behaviour of reef fish, the blue-streak cleaner wrasse Labroides dimidiatus and
the moon wrasse Thalassoma /unare recorded in the Philippines and of the King Angelfish
Holacanthus passer in Malpelo Island (Araujo et al. 2020). In Galapagos, although both

Species associated with whale sharks Rhincodon typus (Orectolobiformes, ... FS)

these species are present, we have not sighted the same behaviour from the cleaner fish
with whale sharks, as we do with hammerhead sharks. We suggest this would most likely
be due to the fact that the adult whale sharks in the Galapagos Archipelago are sighted in
the open ocean and do not spend a significant amount of time on or close to the reefs,
while the juvenile whale sharks sighted in the Philippines would. Meanwhile, as mentioned
by Araujo et al. (2020), the single sighting of cleaning behaviour in Malpelo Island by the
King Angelfish, where whale sharks are also known to be transient and pelagic, is rare and
probably opportunistic.

Acknowledgements

We would like to thank the naturalist and dive guides who send in reports with a special
thank you to Paulo Tobar for always contributing information to the project and incentivising
his co-workers to do so as well. We would also like to thank the fishermen Manuel Yepez
and Daniel Torres who have sent information about sighting locations and interesting
encounters and have kept us informed about the sightings reported by their colleagues.

Ethics and security

All data collection is conducted under and approved by the Galapagos National Park
Permits under the project “The role of oceanic islets for the protection of marine migratory
species’.

Conflicts of interest

No conflicts of interest.

References

° Acufna-Marrero D, Jiménez J, Smith F, Doherty P, Hearn A, Green J, Paredes-Jarrin J,
Salinas-de-Ledon P (2014) Whale Shark (Rhincodon typus) seasonal presence,
residence time and habitat use at Darwin Island, Galapagos Marine Reserve. PLOS
One 9 (12). https://doi.org/10.1371/journal.pone.0115946

° Araujo G, Miranda J, Allen H, Labaja J, Snow S, Ponzo A, Legaspi C (2020) Whale
sharks Rhincodon typus get cleaned by the bluestreak cleaner wrasse Labroides
dimidiatus and the moon wrasse Thalassoma l/unare in the Philippines. Journal of Fish
Biology 97 (4): 1247-1251. https://doi.org/10.1111/jfb.14464

° Arnbom T, Papastavrou V (1988) Fish in association with whale sharks Rhiniodon typus
near the Galapagos Islands. Noticias de Galapagos 46: 13-15.

° Bustamante R, Collins KJ, Bensted-Smith R (2000) Biodiversity Conservation in the
Galapagos Marine Reserve. Bulletin De L'institut Royal Des Sciences Naturelles De
Belgique 70: 31-38.

10

Green S etal

Coetzee M, Smit N, Grutter A, Davies A (2008) Gnathia trimaculata n. sp. (Crustacea:
Isopoda: Gnathiidae), an ectoparasite found parasitising requiem sharks from off Lizard
Island, Great Barrier Reef, Australia. Systematic Parasitology 72 (2): 97-112. https://
doi.org/10.1007/s11230-008-9158-2

Cohen K, Flammang B, Crawford C, Hernandez LP (2020) Knowing when to stick:
touch receptors found in the remora adhesive disc. Royal Society Open Science 7 (1).
https://doi.org/10.1098/rsos.190990

Colman JG (1997) A review of the biology and ecology of the whale shark. Journal of
Fish Biology 51 (6): 1219-1234. https://doi.org/10.1111/j.1095-8649.1997.tb01138.x
Dove AM, Pierce S (2021) Whale Sharks: Biology, Ecology and Consvervation. CRC
Press https://doi.org/10.1201/b22502

Escalle L, Gaertner D, Chavance P, Murua H, Simier M, Pascual-Alayon PJ, Ménard F,
Ruiz J, Abascal F, Mérigot B (2018) Catch and bycatch captured by tropical tuna purse-
seine fishery in whale and whale shark associated sets: comparison with free school
and FAD sets. Biodiversity and Conservation 28 (2): 467-499. https://doi.org/10.1007/
$10531-018-1672-1

Gudger EW (1933) A second whale shark, Rhineodon typus, at the Galapagos Islands.
Nature 132 (3336): 569-569. https://doi.org/10.1038/132569a0

Heyman W, Graham R, Kjerfve B, Johannes R (2001) Whale sharks Rhincodon typus
aggregate to feed on fish spawn in Belize. Marine Ecology Progress Series 215:
275-282. https://doi.org/10.3354/meps215275

Hillis DM, Heller HC, Price MV (2011) Principles of Life. Macmillan Learning

Hoffman W, Fritts T, Reynolds R (1981) Whale sharks associated with fish schools off
South Texas. Northeast Gulf Science 5 (1). https://doi.org/10.18785/negs.0501.08
Hoffmayer E, Franks J, Driggers W, Oswald K, Quattro J (2007) Observations of a
feeding aggregation of whale Sharks, Rhincodon typus, in the North Central Gulf of
Mexico. Gulf and Caribbean Research 19 https://doi.org/10.18785/gcr.1902.08

IATTC (2019) Resolution C-19-06. Conservation of whale Sharks. https://www.iattc.org/
PDFFiles/Resolutions/IATTC/ English/C-19-06-Active Whale%20sharks.pdf

Johnson R, Nelson D (1973) Agonistic Display in the Gray Reef Shark, Carcharhinus
menisorrah, and Its Relationship to Attacks on Man. Copeia 1973 (1). https://doi.org/
10.2307/1442360

Latusek-Nabholz J (2014) Arare observation of bottlenose dolphins (Tursiops truncatus)
with a whale shark (Rhincodon typus) off the Florida Panhandle, Gulf of Mexico. Aquatic
Mammals 40 (3): 293-296. https://doi.org/10.1578/am.40.3.2014.293

Martin RA (2007) A review of shark agonistic displays: comparison of display features
and implications for shark—human interactions. Marine and Freshwater Behaviour and
Physiology 40 (1): 3-34. https://doi.org/10.1080/10236240601154872

Norman B, Newbound D, Knott B (2000) A new species of Pandaridae (Copepoda),
from the whale shark (Rhincodon typus)(Smith). Journal of Natural History 34 (3):
355-366. https://doi.org/10.1080/002229300299534

Norman B, Holmberg J, Arzoumanian Z, Reynolds S, Wilson R, Rob D, Pierce S, Gleiss
A, de la Parra R, Galvan B, Ramirez-Macias D, Robinson D, Fox S, Graham R, Rowat
D, Potenski M, Levine M, Mckinney J, Hoffmayer E, Dove AM, Hueter R, Ponzo A,
Araujo G, Aca E, David D, Rees R, Duncan A, Rohner C, Prebble CM, Hearn A, Acuna
D, Berumen M, Vazquez A, Green J, Bach S, Schmidt J, Beatty S, Morgan D (2017)
Undersea Constellations: The global biology of an endangered marine megavertebrate

Species associated with whale sharks Rhincodon typus (Orectolobiformes, ... 11

further informed through citizen science. BioScience 67 (12): 1029-1043. https://doi.org/
10.1093/biosci/bix127

Norman BM (1999) Aspects of the biology and ecotourism industry of the whale shark
Rhincodon typus in North-Western Australia. Masters by Research thesis, Murdoch
University

QGIS Development Team (2020) QGIS Geographic Information System. Open Source
Geospatial Foundation Project. URL: http://ggis.osgeo.org

Quimbayo JP, Dias MS, Schlickmann ORC, Mendes TC (2016) Fish cleaning
interactions on a remote island in the Tropical Eastern Pacific. Marine Biodiversity 47
(2): 603-608. https://doi.org/10.1007/s12526-016-0493-2

Rohner C, Armstrong A, Pierce S, Prebble CM, Cagua EF, Cochran JM, Berumen M,
Richardson A (2015) Whale sharks target dense prey patches of sergestid shrimp off
Tanzania. Journal of Plankton Research 37 (2): 352-362. https://doi.org/10.1093/plankt/
fov010

Rowat D, Brooks KS (2012) A review of the biology, fisheries and conservation of the
whale shark Rhincodon typus. Journal of Fish Biology 80 (5): 1019-1056. https://doi.org/
10.1111/j.1095-8649.2012.03252.x

Schaeffer B, Morrison J, Kamykowski D, Feldman G, Xie L, Liu Y, Sweet W, McCulloch
A, Banks S (2008) Phytoplankton biomass distribution and identification of productive
habitats within the Galapagos Marine Reserve by MODIS, a surface acquisition system,
and in-situ measurements. Remote Sensing of Environment 112 (6): 3044-3054. https://
doi.org/10.1016/j.rse.2008.03.005

Smith J (2012) Galapagos Ocean Currents. https://www.livingoceansfoundation.org/

galapagos-currents/