Hayashi & Tsuji, 2008

Ryota Hayashi, Kazuki Tsuji (2008) Spatial distribution of turtle barnacles on the green sea turtle, Chelonia mydas. Ecological Research, 23(1), 121-125.

琉球大学での卒業論文です。沖縄県宜野座村の漢那漁港定置網で混獲されるウミガメ類に付着するフジツボ類の分布パターンを解析したもの。群集生態学のテーマの一つ、「多種共存のメカニズム」について、独立集中分布モデルで説明できるか解析しました。最初はイヤイヤながらやっていたフジツボの研究ですが、この卒論を進める中でたくさんフジツボが付いているカメもいればまったく付いていないカメもいることに気付きました。フジツボの付着パターンがウミガメの回遊行動を反映しているのではないか？フジツボ研究をさらに進めればウミガメの生態にも迫れるのではないか？とその後に続く一連のカメフジツボ研究のトリガーになってしまった内容です。

昆虫学研究室所属でしたが、ウミガメで卒論やりたいと言ってみたら指導教官に「いいんじゃない」と言われたのでやりました。

Cited by 41 papers (at 2024/3/28):

1. Agha M, Riley MK, Sanford E, Carlton JT, Newman WA, Todd BD (2018) A review of epizoic barnacles reported from freshwater turtles with a new record from California. Herpetological Review, 49(1), 25-28.
2. Baruffaldi M, Rubini S, Ignoto S, Angelini V, Tiralongo F (2023) Learning from Caretta caretta (Linnaeus, 1758) epibionts: a study from the Adriatic Sea. Frontiers in Marine Science, 10, 1243153.
   
3. Beden E, Karahan A (2020) Phylogeographic resolution of the barnacle (Chelonibia testudinaria) from the North-Eastern Mediterranean loggerhead sea turtles epibiont community. Genetics of Aquatic Organisms, 5, 1-8.
4. Boyd LL, Zardus JD, Knauer C, Wood LD (2021) Evidence for host selectivity and specialization by epizoic Chelonibia barnacles between hawksbill and green sea turtles. Frontiers in Ecology and Evolution, doi: 10.3389/fevo.2021.807237
   
5. Bressan MJ, de Lima TG, de Melo LF, Rigoglio NN, Lopes EQ (2020) The green turtle Chelonia mydas (linnaeus, 1758) (Testudines: Cheloniidae) body's score from dead specimens in stranding on Cananeia-Iguape-Peruibe environmental protection area, South Sao Paulo Coast. Brazilian Journal of Animal and Environmental Research, 3(3), 1871-1884.
6. Casale P, D'Addario M, Freggi D, Argano R (2012) Barnacles (Cirripedia: Thoracica) and associated epibionts from sea turtles in the central Mediterranean. Crustaceana, 85(4-5), 533-549.
7. Cash K, Goodwin GD, Burkholder D, Hoch JM (2024) Morphological variation of the cirri and penis in the hermaphroditic sea-turtle barnacle Chelonibia testudinaria (Linnaeus, 1758)(Cirripedia: Balanomorpha: Chelonibiidae). Journal of Crustacean Biology, 44(2), ruae016.
8. Cheang CC, Tsang LM, Chu KH, Cheng I-J, Chan BKK (2013) Host-specific phenotypic plasticity of the turtle barnacle Chelonibia testudinaria: a widespread generalist rather than a specialist. PLoS ONE, 8(3), e57592.
9. Devin ML, Sadeghi P (2010) Barnacles on hawksbill sea turtles, Eretmochelys imbricata, in Hormoz Island, Iran. Zoology in the Middle East, 49(1), 45-48.
10. Doell SA, Connolly RM, Limpus CJ, Pearson RM, van de Merwe JP (2017) Using growth rates to estimate age of the sea turtle barnacle Chelonibia testudinaria. Marine Biology, 164(12), 222.
11. Ewers-Saucedo C, Arendt MD, Wares JP, Ritschoff D (2015) Growth, age structure and mating group size in an androdioecious barnacle: Implications for the evolution of dwarf males. Journal of Crustacean Biology, 35(2), 166-176.
12. Fernandez-Leborans G (2010) Epibiosis in Crustacea: an overview. Crustaceana, 83(5), 549-640.
13. Fernandez-Leborans G (2013) A review of cnidarian epibionts on marine crustacea. Oceanological and Hydrobiological Studies, 42(3), 347-357.
14. Frick MG, Pfaller JB (2013) Sea turtle epibiosis. In: The Biology of Sea Turtles Volume III, Chapter: 15, CRC Press, Eds. Wyneken J, Lohmann KJ, Musick JA, pp. 399-426.
15. Fuller WJ, Broderick AC, Enever R, Thorne P, Godley BJ (2010) Motile homes: a comparison of the spatial distribution of epibiont communities on Mediterranean sea turtles. Journal of Natural History, 44(27), 1743-1753.
16. Hamabata T, Nishizawa H, Kawazu I, Kameda K, Kamezaki N, Hikida T (2018) Stock composition of green turtles Chelonia mydas foraging in the Ryukyu Archipelago differs with size class. Marine Ecology Progress Series, 600, 151-163.
17. Hayashi R (2009) New host records of the turtle barnacle, Cylindrolepas sinica: a case study of sea turtle's behavior and their epibionts. Marine Biodiversity Records, 2, e165.
18. Hayashi R (2012) Atlas of the barnacles on marine vertebrates in Japanese waters including taxonomical review of superfamily Coronuloidea (Cirripedia: Thoracica). Journal of the Marine Biological Association of the United Kingdom, 92(1), 107-127.
19. Hayashi R (2013) A checklist of the turtle and whale barnacles (Cirripedia: Thoracica: Coronuloidea). Journal of the Marine Biological Association of the United Kingdom, 93(1), 143-182.
20. Hayashi R (2021) Past biodiversity: Japanese historical monographs document the epibiotic barnacles and cold-stunning event of the hawksbill turtle Eretmochelys imbricata. Frontiers in Ecology and Evolution, doi: 10.3389/fevo.2021.734415
21. Hayashi R, Nishizawa H (2015) Body size distribution demonstrates flexible habitat shift of green turtle (Chelonia mydas). Global Ecology and Conservation, 3, 115-120.
22. Ihwan MZ, Joseph J, Jamaan AS, Wahidah W, Marina H (2018) Occurrence of epibiont barnacles Chelonibia testudinaria on green turtle Chelonia mydas at Brunei Bay. International Journal of Zoological Research, 14, 43-48.
23. Jones TT, Van Houtan KS, Bostrom BL, Ostafichuk P, Mikkelsen J, Tezcan E, Carey M, Imlach B, Seminoff JA (2013) Calculating the ecological impacts of animal-borne instruments on aquatic organisms. Methods in Ecology and Evolution, 4(12), 1178-1186.
24. Joseph J, Nishizawa H, Jalimin SN, Othman R, Jaaman SA, Bali J, Xuelei Z (2023) Health status and genetic compositions of green turtles (Chelonia mydas) foraging in Brunei Bay. PLoS ONE, 18(11), e0293979.
    
25. Kim HK, Chan BKK, Yi C, Kim IH, Choi YN (2021) Barnacle epibiosis of sea turtles in Korea-a West Pacific region with low occurrence and intensity of Chelonibia testudinaria (Cirripedia: Chelonibiidae). Frontiers in Ecology and Evolution,  doi: 10.3389/fevo.2022.785692
    
26. Lim KK, Hussein MAS, Palaniappan P (2021) Abundance, placement and sexual identity of the epizoic barnacle Chelonibia testudinaria relative to the size and species of host turtles in Mabul Island, Malaysia. Journal of the Marine Biological Association of the United Kingdom, 100(8), 1299-1309.
27. Loghmannia J, Nasrolahi A, Dobretsov S (2023) Epibiotic bacteria on the carapace of hawksbill and green sea turtles. Biofouling, https://doi.org/10.1080/08927014.2023.2220275
28. Loghmannia J, Nasrolahi A, Rezaie-Atagholipour M, Kiabi BH (2021) Epibiont assemblages on nesting hawksbill turtles show site-specificity in the Persian Gulf. Frontiers in Ecology and Evolution, doi: 10.3389/fevo.2021.690022
29. Miranda EBP (2017) The plight of reptiles as ecological actors in the tropics. Frontiers in Ecology and Evolution, https://doi.org/10.3389/fevo.2017.00159.
30. Moreno-Colom P, Ten S, Raga JA, Aznar FJ (2020) Spatial distribution and aggregation of Xenobalanus globicipitis on the flukes of striped dolphins, Stenella coeruleoalba: An indicator of host hydrodynamics? Marine Mammal Science, 36(3), 897-914.
31. Munroe DM, Noda T (2009) Spatial pattern of rocky intertidal barnacle recruitment: comparison over multiple tidal levels and years. Journal of the Marine Biological Association of the United Kingdom, 89(2), 345-353.
32. Nájera-Hillman A, Bass JB, Buckham S (2012) Distribution patterns of the barnacle, Chelonibia testudinaria, on juvenile green turtles (Chelonia mydas) in Bahia Magdalena, Mexico. Revista Mexicana de Biodiversidad, 83, 1171-1179.
33. Nishizawa H, Joseph J, Jolis G, Isnain I, Muin H, Johari S, Saleh E (2023) Variations in body condition of green turtles (Chelonia mydas) in two nearby foraging grounds indicate their sensitivity to foraging habitats. Aquatic Conservation, doi: 10.1002/aqc.4038
34. Nolte CR, Nel R, Pfaff MC (2020) Determining body condition of nesting loggerhead sea turtles (Caretta caretta) in the South-west Indian Ocean. Journal of the Marine Biological Association of the United Kingdom, 100(2), 291-299.
35. Pinou T, Domènech F, Lazo-Wasem EA, Majewska R, Pfaller JB, Zardus JD, Robinson NJ (2019) Standardizing sea turtle epibiont sampling: outcomes of the Epibiont Workshop at the 37th International Sea Turtle Symposium. Marine Turtle Newsletter, 157, 22-32.
36. Razaghian H, Esfandabad BS, Hesni MA, Shoushtari RV, Toranjzar H, Miller J (2019) Distribution patterns of epibiotic barnacles on the hawksbill turtle, Eretmochelys imbricata, nesting in Iran. Regional Studies in Marine Science, 27, 100527. 
37. Rivera SF, Vasselon V, Ballorain K, Carpentier A, Wetzel CE, Ector L, Bouchez A, Rimet F (2018) DNA metabarcoding and microscopic analyses of sea turtles biofilms: Complementary to understand turtle behavior. PLoS ONE, 13(4), e0195770.
38. Robinson NJ, Lazo-Wasem EA, Paladino FV, Zardus JD, Pinou T (2017) Assortative epibiosis of leatherback, olive ridley and green sea turtles in the Eastern Tropical Pacific. Journal of the Marine Biological Association of the United Kingdom, 97(6), 1233-1240.
39. Suárez-Morales E, Morales-Vela B, Padilla-Saldívar J, Silva-Briano M (2010) The copepod Balaenophilus manatorum (Ortíz, Lalana and Torres, 1992) (Harpacticoida), an epibiont of the Caribbean manatee. Journal of Natural History, 44(13-14), 847-859.
40. Tiralongo F, Baruffaldi M, Rubini S, Ignoto S, Angelini V (2023) Learning from Caretta caretta (Linnaeus, 1758) epibionts: a study from the Adriatic Sea. Frontiers in Marine Science, 10, 1243153.
    
41. Zonneveld J-P, Zonneveld ZEE, Bartels WS, Gingras MK, Head J (2022) Bone modification features resulting from barnacle attachment on the bones of loggerhead sea turtles (Caretta caretta), Cumberland Island, Georgia, USA: implications for the paleoecological, and taphonomic analyses of fossil sea turtles. Palaios, 37(11), 650-670. doi: https://doi.org/10.2110/palo.2022.021