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Journal articles on the topic 'Humboldt squid'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 February 2022

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1

O’Dor, R. K. "How squid swim and fly." Canadian Journal of Zoology 91, no. 6 (June 2013): 413–19. http://dx.doi.org/10.1139/cjz-2012-0273.

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Squid have been studied extensively since 1982 to quantitatively measure their cost of locomotion and compare it with costs for fishes that are their primary competitors in the ocean. Early work focused on oxygen consumption in swim tunnels and led to the use of jet pressure tags to relate captive studies to behaviour in nature. Dosidicus gigas (d’Orbigny, 1835) (jumbo flying squid or Humboldt squid), which has expanded its range more than 10-fold, is used to illustrate how “live fast, die young” squid can out compete fishes in changing times by both swimming and flying. Recent work has provided quantitative data on the costs of flying and this report provides some comparisons. Costs of flight in nature require new technology, which has fortunately arrived just in time. Accelerometry tags can now provide similar and perhaps better data on travel rate in nature, both in water and in air. These work on both squid and fish, so more and better comparisons are becoming possible.
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2

Zeidberg, L. D., and B. H. Robison. "Reply to Watters et al.: Range expansion of the Humboldt squid." Proceedings of the National Academy of Sciences 105, no. 3 (January 14, 2008): E6. http://dx.doi.org/10.1073/pnas.0710602105.

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3

Arbuckle, N. Scarlett M., and John H. Wormuth. "Trace elemental patterns in Humboldt squid statoliths from three geographic regions." Hydrobiologia 725, no. 1 (July 2, 2013): 115–23. http://dx.doi.org/10.1007/s10750-013-1608-4.

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4

Staaf, DJ, LD Zeidberg, and WF Gilly. "Effects of temperature on embryonic development of the Humboldt squid Dosidicus gigas." Marine Ecology Progress Series 441 (November 15, 2011): 165–75. http://dx.doi.org/10.3354/meps09389.

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5

Watters, G. M., R. J. Olson, J. C. Field, and T. E. Essington. "Range expansion of the Humboldt squid was not caused by tuna fishing." Proceedings of the National Academy of Sciences 105, no. 3 (January 14, 2008): E5. http://dx.doi.org/10.1073/pnas.0710369105.

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6

Trueblood, Lloyd A., Sarah Zylinski, Bruce H. Robison, and Brad A. Seibel. "An ethogram of the Humboldt squid Dosidicus gigas Orbigny (1835) as observed from remotely operated vehicles." Behaviour 152, no. 14 (2015): 1911–32. http://dx.doi.org/10.1163/1568539x-00003324.

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Many cephalopods can rapidly change their external appearance to produce multiple body patterns. Body patterns are composed of various components, which can include colouration, bioluminescence, skin texture, posture, and locomotion. Shallow water benthic cephalopods are renowned for their diverse and complex body pattern repertoires, which have been attributed to the complexity of their habitat. Comparatively little is known about the body pattern repertoires of open ocean cephalopods. Here we create an ethogram of body patterns for the pelagic squid, Dosidicus gigas. We used video recordings of squid made in situ via remotely operated vehicles (ROV) to identify body pattern components and to determine the occurrence and duration of these components. We identified 29 chromatic, 15 postural and 6 locomotory components for D. gigas, a repertoire rivalling nearshore cephalopods for diversity. We discuss the possible functional roles of the recorded body patterns in the behavioural ecology of this open ocean species.
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7

Field, JC, SY Litvin, A. Carlisle, JS Stewart, WF Gilly, and RI Ruiz-Cooley. "Stable isotope analysis of Humboldt squid prey: Comment on Miller et al. (2013)." Marine Ecology Progress Series 500 (March 17, 2014): 281–85. http://dx.doi.org/10.3354/meps10533.

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8

Castillo, Juan P., Daniel Basilio, Ramon Latorre, Francisco Bezanilla, and Miguel Holmgren. "K+ Translocation by the Giant Axon of the Humboldt Squid Na+/K ATPase." Biophysical Journal 106, no. 2 (January 2014): 582a. http://dx.doi.org/10.1016/j.bpj.2013.11.3225.

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9

Rodhouse, Paul G., Claire M. Waluda, Enrique Morales-Bojórquez, and Agustín Hernández-Herrera. "Fishery biology of the Humboldt squid, Dosidicus gigas, in the Eastern Pacific Ocean." Fisheries Research 79, no. 1-2 (June 2006): 13–15. http://dx.doi.org/10.1016/j.fishres.2006.02.008.

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10

Staaf, Danna J., Susana Camarillo-Coop, Steven H. D. Haddock, Al C. Nyack, John Payne, Cesar A. Salinas-Zavala, Brad A. Seibel, Lloyd Trueblood, Chad Widmer, and William F. Gilly. "Natural egg mass deposition by the Humboldt squid (Dosidicus gigas) in the Gulf of California and characteristics of hatchlings and paralarvae." Journal of the Marine Biological Association of the United Kingdom 88, no. 4 (June 25, 2008): 759–70. http://dx.doi.org/10.1017/s0025315408001422.

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The jumbo or Humboldt squid, Dosidicus gigas, is an important fisheries resource and a significant participant in regional ecologies as both predator and prey. It is the largest species in the oceanic squid family Ommastrephidae and has the largest known potential fecundity of any cephalopod, yet little is understood about its reproductive biology. We report the first discovery of a naturally deposited egg mass of Dosidicus gigas, as well as the first spawning of eggs in captivity. The egg mass was found in warm water (25–27°C) at a depth of 16 m and was far larger than the egg masses of any squid species previously reported. Eggs were embedded in a watery, gelatinous matrix and were individually surrounded by a unique envelope external to the chorion. This envelope was present in both wild and captive-spawned egg masses, but it was not present in artificially fertilized eggs. The wild egg mass appeared to be resistant to microbial infection, unlike the incomplete and damaged egg masses spawned in captivity, suggesting that the intact egg mass protects the eggs within. Chorion expansion was also more extensive in the wild egg mass. Hatchling behaviours included proboscis extension, chromatophore activity, and a range of swimming speeds that may allow them to exercise some control over their distribution in the wild.
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11

Zeidberg, L. D., and B. H. Robison. "Invasive range expansion by the Humboldt squid, Dosidicus gigas, in the eastern North Pacific." Proceedings of the National Academy of Sciences 104, no. 31 (July 23, 2007): 12948–50. http://dx.doi.org/10.1073/pnas.0702043104.

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12

Liu, Bilin, Xinjun Chen, Weiguo Qian, Yue Jin, and Jianhua Li. "δ13C and δ15N in Humboldt squid beaks: understanding potential geographic population connectivity and movement." Acta Oceanologica Sinica 38, no. 10 (October 2019): 53–59. http://dx.doi.org/10.1007/s13131-019-1487-2.

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13

González-Pestana, Adriana, Nicolas Acuña-Perales, Francisco Córdova, Javier Coasaca, Eliana Alfaro, Joanna Alfaro-Shigueto, and Jeffrey C. Mangel. "Feeding habits of thresher sharks Alopias sp. in northern Peru: predators of Humboldt squid (Dosidicus gigas)." Journal of the Marine Biological Association of the United Kingdom 99, no. 3 (July 13, 2018): 695–702. http://dx.doi.org/10.1017/s0025315418000504.

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The stomach contents of thresher sharks (Alopias spp.; 162–385 cm total length) were collected from five landing points in northern Peru during 2015. A total of 128 thresher sharks were sampled, with 38 individuals identified as Alopias pelagicus and 90 aggregated to the genus level Alopias sp. to prevent any misidentification. The diet comprised 13 and 10 prey taxa for Alopias sp. and A. pelagicus, respectively. Humboldt squid Dosidicus gigas dominated the diet of both groups, with only minor differences in the diet in relation to size classes and location. The diet of Alopias shows a high degree of specialization and the average trophic positions were high for both groups, A. pelagicus (4.4 ± 0.13) and Alopias sp. (4.5 ± 0.14).
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14

McKeown, Niall J., Alexander I. Arkhipkin, and Paul W. Shaw. "Genetic analysis reveals historical and contemporary population dynamics in the longfin squid Doryteuthis gahi: implications for cephalopod management and conservation." ICES Journal of Marine Science 76, no. 4 (February 5, 2019): 1019–27. http://dx.doi.org/10.1093/icesjms/fsz009.

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Abstract Population genetic structure of the Patagonian longfin squid Doryteuthis gahi was assessed across the Falkland Islands, central-southern Chile, and Peru. Microsatellite and mtDNA data partitioned samples into two groups: one consisting of the Peruvian samples, the other comprised the Chilean and Falklands samples, with no sub-structuring within either group. Recurrent demographic independence between groups can be linked to abrupt changes in continental shelf features between the Peruvian and central Chilean sites restricting adult dispersal. Phylogeographic analyses indicate a prolonged period of isolation between the Peruvian and Chilean–Falkland groups which may include divergence in allopatric glacial refugia. Both groups have experienced dissimilar historical population size dynamics with the Peruvian population exhibiting signals of size fluctuations, similar to other species in the area, that align with postglacial changes in the productivity of the Humboldt Current system. Genetic cohesion among central-southern Chilean and Falklands samples supports connectivity across current management boundaries and indicates that phenotypic differences between D. gahi from these areas reflect plastic responses to environmental heterogeneity. The study adds to evidence that loliginid squids typically display connected populations over large geographical areas unless specific oceanographic features restrict gene flow. Recognition of the Peruvian and Chilean–Falklands groups as distinct evolutionary significant units is recommended.
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15

Miller, TW, KL Bosley, J. Shibata, RD Brodeur, K. Omori, and R. Emmett. "Use of mixing models for Humboldt squid diet analysis: Reply to Field et al. (2014)." Marine Ecology Progress Series 500 (March 17, 2014): 287–90. http://dx.doi.org/10.3354/meps10759.

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16

Alegre, Ana, Frédéric Ménard, Ricardo Tafur, Pepe Espinoza, Juan Argüelles, Víctor Maehara, Oswaldo Flores, Monique Simier, and Arnaud Bertrand. "Comprehensive Model of Jumbo Squid Dosidicus gigas Trophic Ecology in the Northern Humboldt Current System." PLoS ONE 9, no. 1 (January 20, 2014): e85919. http://dx.doi.org/10.1371/journal.pone.0085919.

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17

Saito, Hiroaki, Mitsuo Sakai, and Toshie Wakabayashi. "Characteristics of the lipid and fatty acid compositions of the Humboldt squid,Dosidicus gigas: The trophic relationship between the squid and its prey." European Journal of Lipid Science and Technology 116, no. 3 (January 17, 2014): 360–66. http://dx.doi.org/10.1002/ejlt.201300230.

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18

Burford, Benjamin P., and Bruce H. Robison. "Bioluminescent backlighting illuminates the complex visual signals of a social squid in the deep sea." Proceedings of the National Academy of Sciences 117, no. 15 (March 23, 2020): 8524–31. http://dx.doi.org/10.1073/pnas.1920875117.

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Visual signals rapidly relay information, facilitating behaviors and ecological interactions that shape ecosystems. However, most known signaling systems can be restricted by low light levels—a pervasive condition in the deep ocean, the largest inhabitable space on the planet. Resident visually cued animals have therefore been hypothesized to have simple signals with limited information-carrying capacity. We used cameras mounted on remotely operated vehicles to study the behavior of the Humboldt squid, Dosidicus gigas, in its natural deep-sea habitat. We show that specific pigmentation patterns from its diverse repertoire are selectively displayed during foraging and in social scenarios, and we investigate how these behaviors may be used syntactically for communication. We additionally identify the probable mechanism by which D. gigas, and related squids, illuminate these patterns to create visual signals that can be readily perceived in the deep, dark ocean. Numerous small subcutaneous (s.c.) photophores (bioluminescent organs) embedded throughout the muscle tissue make the entire body glow, thereby backlighting the pigmentation patterns. Equipped with a mechanism by which complex information can be rapidly relayed through a visual pathway under low-light conditions, our data suggest that the visual signals displayed by D. gigas could share design features with advanced forms of animal communication. Visual signaling by deep-living cephalopods will likely be critical in understanding how, and how much, information can be shared in one of the planet’s most challenging environments for visual communication.
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19

Stewart, JS, EL Hazen, DG Foley, SJ Bograd, and WF Gilly. "Marine predator migration during range expansion: Humboldt squid Dosidicus gigas in the northern California Current System." Marine Ecology Progress Series 471 (December 19, 2012): 135–50. http://dx.doi.org/10.3354/meps10022.

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20

Becker, Kaylyn N., and Joseph D. Warren. "Material properties of Pacific hake, Humboldt squid, and two species of myctophids in the California Current." Journal of the Acoustical Society of America 137, no. 5 (May 2015): 2522–32. http://dx.doi.org/10.1121/1.4919308.

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21

Becker, Kaylyn, and Joseph D. Warren. "Material properties of Pacific hake, Humboldt squid, and two species of myctophids in the California Current." Journal of the Acoustical Society of America 135, no. 4 (April 2014): 2176. http://dx.doi.org/10.1121/1.4877077.

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22

Matteson, Robyn S., Kelly J. Benoit‐Bird, and William F. Gilly. "Humboldt squid distribution in three‐dimensional space as measured by acoustics in the Gulf of California." Journal of the Acoustical Society of America 125, no. 4 (April 2009): 2550. http://dx.doi.org/10.1121/1.4783646.

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23

Sandoval-Castellanos, Edson, Manuel Uribe-Alcocer, and Píndaro Díaz-Jaimes. "Population genetic structure of the Humboldt squid (Dosidicus gigas d'Orbigny, 1835) inferred by mitochondrial DNA analysis." Journal of Experimental Marine Biology and Ecology 385, no. 1-2 (April 2010): 73–78. http://dx.doi.org/10.1016/j.jembe.2009.12.015.

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24

Hu, Guanyu, Wei Yu, Bai Li, Dongyan Han, Xinjun Chen, Yong Chen, and Jianhua Li. "Impacts of El Niño on the somatic condition of Humboldt squid based on the beak morphology." Journal of Oceanology and Limnology 37, no. 4 (March 27, 2019): 1440–48. http://dx.doi.org/10.1007/s00343-019-8175-0.

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25

Gong, Yi, Yaxin Wang, Ling Chen, Yunkai Li, Xinjun Chen, and Bilin Liu. "Microplastics in different tissues of a pelagic squid (Dosidicus gigas) in the northern Humboldt Current ecosystem." Marine Pollution Bulletin 169 (August 2021): 112509. http://dx.doi.org/10.1016/j.marpolbul.2021.112509.

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26

Gilly, W. F., Unai Markaida, Carlos Robinson, and Bilin Liu. "Got Squid? Changes in the Ecological State of the Gulf of California Since the 1940 Steinbeck-Ricketts Expedition with a Focus on Humboldt Squid." Journal of the Southwest 62, no. 2 (2020): 411–49. http://dx.doi.org/10.1353/jsw.2020.0011.

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27

Rosen, H., W. Gilly, L. Bell, K. Abernathy, and G. Marshall. "Chromogenic behaviors of the Humboldt squid (Dosidicus gigas) studied in situ with an animal-borne video package." Journal of Experimental Biology 218, no. 2 (January 15, 2015): 265–75. http://dx.doi.org/10.1242/jeb.114157.

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28

Liu, Bilin, Xinjun Chen, Yong Chen, Siquan Tian, Jianhua Li, Zhou Fang, and Mingxia Yang. "Age, maturation, and population structure of the Humboldt squid Dosidicus gigas off the Peruvian Exclusive Economic Zones." Chinese Journal of Oceanology and Limnology 31, no. 1 (January 2013): 81–91. http://dx.doi.org/10.1007/s00343-013-2036-z.

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29

Cabrera-Barjas, Gustavo, Cristian González, Aleksandra Nesic, Kelly P. Marrugo, Oscar Gómez, Cédric Delattre, Oscar Valdes, Heng Yin, Gaston Bravo, and Juan Cea. "Utilization of Marine Waste to Obtain β-Chitin Nanofibers and Films from Giant Humboldt Squid Dosidicus gigas." Marine Drugs 19, no. 4 (March 26, 2021): 184. http://dx.doi.org/10.3390/md19040184.

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β-chitin was isolated from marine waste, giant Humboldt squid Dosidicus gigas, and further converted to nanofibers by use of a collider machine under acidic conditions (pH 3). The FTIR, TGA, and NMR analysis confirmed the efficient extraction of β-chitin. The SEM, TEM, and XRD characterization results verified that β-chitin crystalline structure were maintained after mechanical treatment. The mean particle size of β-chitin nanofibers was in the range between 10 and 15 nm, according to the TEM analysis. In addition, the β-chitin nanofibers were converted into films by the simple solvent-casting and drying process at 60 °C. The obtained films had high lightness, which was evidenced by the CIELAB color test. Moreover, the films showed the medium swelling degree (250–290%) in aqueous solutions of different pH and good mechanical resistance in the range between 4 and 17 MPa, depending on film thickness. The results obtained in this work show that marine waste can be efficiently converted to biomaterial by use of mild extractive conditions and simple mechanical treatment, offering great potential for the future development of sustainable multifunctional materials for various industrial applications such as food packaging, agriculture, and/or wound dressing.
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30

Miller, TW, KL Bosley, J. Shibata, RD Brodeur, K. Omori, and R. Emmett. "Contribution of prey to Humboldt squid Dosidicus gigas in the northern California Current, revealed by stable isotope analyses." Marine Ecology Progress Series 477 (March 12, 2013): 123–34. http://dx.doi.org/10.3354/meps10133.

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31

Rosa, Rui, and Brad A. Seibel. "Metabolic physiology of the Humboldt squid, Dosidicus gigas: Implications for vertical migration in a pronounced oxygen minimum zone." Progress in Oceanography 86, no. 1-2 (July 2010): 72–80. http://dx.doi.org/10.1016/j.pocean.2010.04.004.

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32

Tafur, R., F. Keyl, and J. Argüelles. "Reproductive biology of jumbo squid Dosidicus gigas in relation to environmental variability of the northern Humboldt Current System." Marine Ecology Progress Series 400 (February 11, 2010): 127–41. http://dx.doi.org/10.3354/meps08386.

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33

Thomas, Rebecca, Ian Stewart, Dezhang Chu, John Pohl, Ken Cooke, Chris Grandin, and Stephen de Blois. "Acoustic biomass estimation and uncertainty of Pacific hake and Humboldt squid in the Northern California current in 2009." Journal of the Acoustical Society of America 129, no. 4 (April 2011): 2691. http://dx.doi.org/10.1121/1.3589026.

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34

Rosas-Luis, Rigoberto, Ricardo Tafur-Jimenez, Ana R. Alegre-Norza, Pedro R. Castillo-Valderrama, Rodolfo M. Cornejo-Urbina, Cesar A. Salinas-Zavala, and Pilar Sánchez. "Trophic relationships between the jumbo squid (Dosidicus gigas) and the lightfish (Vinciguerria lucetia) in the Humboldt Current System off Peru." Scientia Marina 75, no. 3 (April 26, 2011): 549–57. http://dx.doi.org/10.3989/scimar.2011.75n3549.

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35

Gilly, W. F., L. D. Zeidberg, J. A. T. Booth, J. S. Stewart, G. Marshall, K. Abernathy, and L. E. Bell. "Locomotion and behavior of Humboldt squid, Dosidicus gigas, in relation to natural hypoxia in the Gulf of California, Mexico." Journal of Experimental Biology 215, no. 18 (August 22, 2012): 3175–90. http://dx.doi.org/10.1242/jeb.072538.

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36

Liu, Bilin, Xinjun Chen, Yong Chen, and Siquan Tian. "Geographic variation in statolith trace elements of the Humboldt squid, Dosidicus gigas, in high seas of Eastern Pacific Ocean." Marine Biology 160, no. 11 (June 13, 2013): 2853–62. http://dx.doi.org/10.1007/s00227-013-2276-7.

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37

Galeazzo, Gabriela A., Jeremy D. Mirza, Felipe A. Dorr, Ernani Pinto, Cassius V. Stevani, Karin B. Lohrmann, and Anderson G. Oliveira. "Characterizing the Bioluminescence of the Humboldt Squid, Dosidicus gigas (d'Orbigny, 1835): One of the Largest Luminescent Animals in the World." Photochemistry and Photobiology 95, no. 5 (May 8, 2019): 1179–85. http://dx.doi.org/10.1111/php.13106.

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38

Ferreri, Gastón A. Bazzino. "Length—Weight Relationships and Condition Factors of the Humboldt Squid (dosidicus Gigas) from the Gulf of california and the Pacific Ocean." Journal of Shellfish Research 33, no. 3 (November 2014): 769–80. http://dx.doi.org/10.2983/035.033.0311.

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39

Portner, Elan J., Unai Markaida, Carlos J. Robinson, and William F. Gilly. "Trophic ecology of Humboldt squid, Dosidicus gigas , in conjunction with body size and climatic variability in the Gulf of California, Mexico." Limnology and Oceanography 65, no. 4 (October 8, 2019): 732–48. http://dx.doi.org/10.1002/lno.11343.

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40

Stewart, Julia S., Elliott L. Hazen, Steven J. Bograd, Jarrett E. K. Byrnes, David G. Foley, William F. Gilly, Bruce H. Robison, and John C. Field. "Combined climate- and prey-mediated range expansion of Humboldt squid (Dosidicus gigas), a large marine predator in the California Current System." Global Change Biology 20, no. 6 (January 20, 2014): 1832–43. http://dx.doi.org/10.1111/gcb.12502.

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41

Argüelles, Juan, Anne Lorrain, Yves Cherel, Michelle Graco, Ricardo Tafur, Ana Alegre, Pepe Espinoza, Anatolio Taipe, Patricia Ayón, and Arnaud Bertrand. "Tracking habitat and resource use for the jumbo squid Dosidicus gigas: a stable isotope analysis in the Northern Humboldt Current System." Marine Biology 159, no. 9 (July 14, 2012): 2105–16. http://dx.doi.org/10.1007/s00227-012-1998-2.

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42

Staaf, Danna J., Susana Camarillo-Coop, Steven H. D. Haddock, Al C. Nyack, John Payne, Cesar A. Salinas-Zavala, Brad A. Seibel, Lloyd Trueblood, Chad Widmer, and William F. Gilly. "Natural egg mass deposition by the Humboldt squid (Dosidicus gigas) in the Gulf of California and characteristics of hatchlings and paralarvae – ERRATUM." Journal of the Marine Biological Association of the United Kingdom 97, no. 2 (March 7, 2016): 257. http://dx.doi.org/10.1017/s0025315416000266.

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43

Sanchez, Gustavo, Kentaro Kawai, Carmen Yamashiro, Ricardo Fujita, Toshie Wakabayashi, Mitsuo Sakai, and Tetsuya Umino. "Patterns of mitochondrial and microsatellite DNA markers describe historical and contemporary dynamics of the Humboldt squid Dosidicus gigas in the Eastern Pacific Ocean." Reviews in Fish Biology and Fisheries 30, no. 3 (June 25, 2020): 519–33. http://dx.doi.org/10.1007/s11160-020-09609-9.

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44

Sanchez, Gustavo, Satoshi Tomano, Carmen Yamashiro, Ricardo Fujita, Toshie Wakabayashi, Mitsuo Sakai, and Tetsuya Umino. "Population genetics of the jumbo squid Dosidicus gigas (Cephalopoda: Ommastrephidae) in the northern Humboldt Current system based on mitochondrial and microsatellite DNA markers." Fisheries Research 175 (March 2016): 1–9. http://dx.doi.org/10.1016/j.fishres.2015.11.005.

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45

Glaubrecht, Matthias, and Mario Alejandro Salcedo-Vargas. "The Humboldt squid Dosidicus gigas (Orbigny, 1835): History of the Berlin specimen, with a reappraisal of other (bathy-)pelagic “gigantic” cephalopods (Mollusca, Ommastrephidae, Architeuthidae)." Zoosystematics and Evolution 80, no. 1 (April 22, 2008): 53–69. http://dx.doi.org/10.1002/mmnz.20040800105.

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46

Castillo, J. P., D. De Giorgis, D. Basilio, D. C. Gadsby, J. J. C. Rosenthal, R. Latorre, M. Holmgren, and F. Bezanilla. "Energy landscape of the reactions governing the Na+ deeply occluded state of the Na+/K+-ATPase in the giant axon of the Humboldt squid." Proceedings of the National Academy of Sciences 108, no. 51 (December 5, 2011): 20556–61. http://dx.doi.org/10.1073/pnas.1116439108.

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47

Argüelles, Juan, and Ricardo Tafur. "New insights on the biology of the jumbo squid Dosidicus gigas in the Northern Humboldt Current System: Size at maturity, somatic and reproductive investment." Fisheries Research 106, no. 2 (November 2010): 185–92. http://dx.doi.org/10.1016/j.fishres.2010.06.005.

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48

Cade, David, and Kelly J. Benoit-Bird. "Association of low oxygen waters with the depths of acoustic scattering layers in the Gulf of California and implications for the success of Humboldt squid (Dosidicus gigas)." Journal of the Acoustical Society of America 136, no. 4 (October 2014): 2186. http://dx.doi.org/10.1121/1.4899920.

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49

Sauerland, Uli, and Pooja Paul. "Discrete Infinity and the Syntax-semantics Interface." Revista Linguíʃtica 13, no. 2 (September 1, 2017): 28. http://dx.doi.org/10.31513/linguistica.2017.v13n2a14031.

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Abstract:
Discrete infnity was identifed as a central feature of human language by Humboldt who famously spoke of making infnite use of fnite means. Later Chomsky refocused attention on this property starting with Chomsky (1957). In a number of works since, Chomsky has repeatedly stressed the centrality of infnity for understanding language. For example, Chomsky (2007) writes that “An I-language is a computational system that generates infnitely many internal expressions”. Chomsky also noted that the property of discrete infnity is shared by the natural numbers and language. This connection has also caught the interest of others in cognitive science (e.g. Dehaene 1999, Dehaene et al. 1999). In this squib, we want to discuss concrete reductions of discrete infnity of the natural number. Specifcally, we want to investigate the extent to which this connection is compatible with current views of the syntax-semantics interface. We argue that merge alone is not enough to derive infnity, but a minimal lexicon is necessary, as Chomsky (2007) has noted in passing. We furthermore show that Chomsky’s assertion that a single lexical item is sufcient to generate the natural numbers depends on two assumptions -- an untyped lambda calculus, and a specifc interpretation of the syntactic Merge operation.
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50

Hoving, Henk-Jan T., Fernando Á. Fernández-Álvarez, Elan J. Portner, and William F. Gilly. "Same-sex sexual behaviour in an oceanic ommastrephid squid, Dosidicus gigas (Humboldt squid)." Marine Biology 166, no. 3 (January 31, 2019). http://dx.doi.org/10.1007/s00227-019-3476-6.

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