JoVE Journal > Biology
Summary
Abstract
Introduction
Protocol
Ergebnisse
Discussion
Offenlegungen
Acknowledgements
Materials
Referenzen
Automatische Übersetzung
Please note that all translations are automatically generated. Click here for the English version.
Biologie

Eyestalk Ablation to Increase Ovarian Maturation in Mud Crabs

Published: March 31, 2023
doi:
10.3791/65039
, , , , ,
1Higher Institution Centre of Excellence (HICoE), Institute of Tropical Aquaculture and Fisheries,Universiti Malaysia Terengganu, 2Centre for Chemical Biology,Universiti Sains Malaysia, 3Department of Aquaculture, Faculty of Fisheries,Kasetsart University, 4School of Biological Sciences,Universiti Sains Malaysia, 5International Research Center for Marine Biosciences, Ministry of Science and Technology,Shanghai Ocean University

Summary

Two eyestalk ablation protocols (i.e., cauterization and surgery approaches) were performed on anesthetized female crabs. The eyestalk ablation of mud crabs hastened the ripening of ovaries without decreasing the survival rate.

Abstract

Mud crabs (Scylla spp.) are commercially important crustacean species that can be found throughout the Indo-West Pacific region. During culture, the induction of ovarian maturation is important to meet the consumer demand for mature mud crabs and hasten seed production. Eyestalk ablation is an effective tool to enhance ovarian maturation in mud crabs. However, there is no standard protocol for the eyestalk ablation of mud crabs. In this study, two eyestalk ablation techniques are described: cauterization (the use of hot metal to ablate the eyestalk of an anesthetized crab) and surgery (the removal of the eyestalk using surgical scissors). Before eyestalk ablation, sexually mature females (CW > 86 mm) were anesthetized using an ice bag (−20 °C) with seawater. When the water temperature reached 4 °C, the ice bag was removed from the water. Flowing seawater (ambient temperature: 28 °C) was used for recovery from the anesthesia immediately after eyestalk ablation. Mortality did not occur during or after the process of eyestalk ablation. The eyestalk ablation protocol presented here accelerated the ovarian maturation of the mud crabs.

Introduction

All four mud crab species belonging to the genus Scylla are commercially important crustacean species in aquaculture1,2. The growth of crustaceans, including mud crabs, and their transformation from the pre-mature (sub-adult or pubertal) phase to the sexually mature (adult) phase occur through a molting process that involves the periodic shedding of older and smaller exoskeletons. Carapace width (CW), chelipeds, and abdominal flap morphologies are widely used to determine the sexual maturity of Scylla spp.3,4,5. The process of molting is regulated by the action of various hormones and requires a huge amount of energy6. In addition to the normal molting process, the loss of limbs, either voluntarily or induced by external factors, expedites the molting of crabs without affecting their survival rate7,8,9. Therefore, limb autotomy is commonly used for molt induction in the soft-shell mud crab farming industry7,9.

Unilateral or bilateral eyestalk ablation is mostly popular in freshwater prawn and marine shrimp for gonad maturation and seed production10,11,12,13. Common eyestalk ablation techniques in crustaceans include the following: (i) ligation at the base of the eyestalk using a string14,15; (ii) cauterization of the eyestalk using hot forceps or electrocautery devices16; (iii) removal or direct pinching of the eyestalk to leave an open wound12; and (iv) removal of the eyestalk contents through incision after slicing the distal portion of the eye with a razor17. The eyestalk X-organs are important endocrine organs in crustaceans as they regulate crustacean hyperglycemic hormones (CHH), molt-inhibiting hormones (MIH), and vitellogenesis-inhibiting hormones (VIH)6,18,19,20,21,22. Eyestalk X-organs (or the sinus gland complex) synthesize and release gonad-inhibiting hormones (GIH), also known as vitellogenesis-inhibiting hormones (VIH), belonging to the neuropeptide hormone family6. Unilateral or bilateral eyestalk ablation reduces GIH synthesis, resulting in the dominance of stimulating hormones (i.e., gonad stimulating hormones, GSH) and the acceleration of the ovarian maturation process in crustaceans23,24,25,26. Without the influence of GIH after eyestalk ablation, female crustaceans devote their energy to ovary development27. It has been found that unilateral eyestalk ablation is sufficient for the induction of ovarian maturation in crustaceans11 and that the ablated eyestalk of shrimps and crabs can regenerate after several moltings28. There are four ovarian development stages recorded in Scylla spp.: i) immature (stage-1), ii) early maturing (stage-2), iii) pre-maturing (stage-3), and iv) fully mature (stage-4)29,30. The immature ovarian stage is found in immature females. After pubertal molting and mating, the immature ovary starts developing and finally matures (stage-4) before spawning31.

An eyestalk ablation protocol is essential for mud crab broodstock development and seed production. In the global food market, mature mud crabs with fully mature ovaries (stage-4) rather than crabs with higher muscle content are preferred by consumers and, thus, have a higher commercial value, even higher than large males. There is no complete protocol for the eyestalk ablation of mud crabs. The eyestalk ablation protocol in this work minimizes stress by using fully anesthetized crabs and minimizes physical injury to personnel from crab bites. This protocol is easy and cost-effective. Here, we present a protocol for the eyestalk ablation of Scylla spp. that can induce the maturation of the gonad. Two techniques of eyestalk ablation (cauterization and surgery) were tested and their efficiencies compared based on the gonadal development rate of female mud crabs.

Protocol

This protocol follows the Malaysian Code of Practice for the Care and Use of Animals for Scientific Purposes outlined by the Laboratory Animal Science Association of Malaysia. The sacrifice of the experimental samples was done according to the National Institutes of Health Guide for the Care and Use of Laboratory Animals (NIH Publications No. 8023, revised 1978). Sexually pre-mature female mud crabs (orange mud crab S. olivacea) were collected from the local market (5°66′62′′N, 102°72…

Representative Results

Gonad maturation Creamy white ovarian tissues (immature ovaries, stage-1) were found in 100% of the dissected females (n = 6) before performing the eyestalk ablation (Figure 2). The gonad maturation rate of the eyestalk-ablated female crabs (n = 63; 31 females with the cauterization technique and 32 females with the surgery technique) was higher compared to female crabs that were not subjected to eyestalk ablation (n = 31) after 30 days of individual rearing (<strong c…

Discussion

This protocol was developed for the eyestalk ablation of the mud crab, Scylla spp., and can be applied as an efficient method to induce gonad maturation. This protocol can be easily replicated for the commercial ovary maturation of mud crabs and can be implemented to reduce the latent period (time from one spawning to another) in mud crab seed production.

The eyestalk ablation of crustaceans (i.e., freshwater prawn, marine shrimp) is typically done to induce gonad maturation and out-o…

Offenlegungen

The authors have nothing to disclose.

Acknowledgements

This study was supported by the Ministry of Education, Malaysia, under the Higher Institution Centre of Excellence (HICoE) program, Malaysia, accredited to the Institute of Tropical Aquaculture and Fisheries, Universiti Malaysia Terengganu (Vot No. 63933 & Vot No. 56048). We acknowledge the support of Universiti Malaysia Terengganu and Sayap Jaya Sdn. Bhd. via the Private Partnership Research Grant (Vot. No. 55377). An adjunct Academic Fellow position from Universiti Sains Malaysia to Khor Waiho and Hanafiah Fazhan is also acknowledged.

Materials

Aeration tube  Ming Yu Three N/A aquarium and pet shop
Airstone Ming Yu Three N/A aquarium and pet shop
Autoclave machine HIRAYAMA MANUFACTURING CORPORATION N/A MADE IN JAPAN
Bleaching powder (Hi-Chlon 70%) Nippon Soda Co.Ltd,Japan N/A N/A
Blow torch  MR D.I.Y. Group Berhad N/A N/A
Circular tank (32L) BEST PLASTIC INDUSTRY SDN. BHD.  N/A N/A
Cotton hand gloves (thick)  MR D.I.Y. Group Berhad N/A N/A
Cotton towel MR D.I.Y. Group Berhad N/A N/A
Digital thermometer Hanna Instrument HI9814 Hanna Instruments GroLine Hydroponics Waterproof pH / EC / TDS / Temp. Portable Meter HI9814
Digital Vernier Caliper INSIZE Co., Ltd. N/A
Dissecting tray Hatcheri AKUATROP  N/A Research Center of Universiti Malaysia Terengganu
Dropper bottle/Plastic Pipettes Dropper Shopee Malaysia N/A N/A
Ethanol 70% Thermo Scientific Chemicals 033361.M1 Diluted to 70% using double distilled water
Fiberglass tank (1 ton) Hatcheri AKUATROP  N/A Research Center of Universiti Malaysia Terengganu
Fine sand N/A N/A collected from Sea beach of Universiti Malaysia Terengganu
First Aid Kits Watsons Malaysia N/A N/A
Flat head nickel steel metal rod (Screw driver) MR D.I.Y. Group Berhad N/A N/A
Formaldehyde Thermo Scientific Chemicals 119690010
Gas cylinder (butane gas) for blow  torch MR D.I.Y. Group Berhad N/A N/A
Gas lighter gun (long head) MR D.I.Y. Group Berhad N/A N/A
Glass beaker (100 mL)) Corning Life Sciences 1000-100
Ice bag  Watsons Malaysia N/A N/A
Perforated plastic baskets  Eco-Shop Marketing Sdn. Bhd. N/A N/A
PVC pipe 15mm Bina Plastic Industries Sdn Bhd (HQ) N/A N/A
Refractometer ATAGO CO.,LTD.
Refrigerator Sharp Corporation Japan N/A Chest Freezer SHARP 110L – SJC 118
Scoop net MR D.I.Y. Group Berhad N/A
Seawater Hatcheri AKUATROP  N/A Research Center of Universiti Malaysia Terengganu
Siphoning pipe MR D.I.Y. Group Berhad N/A N/A
Spray bottle Mr. DIY Sdn Bhd N/A N/A
Stainless surgical forceps  N/A N/A N/A
Stainless surgical scissors  N/A N/A N/A
Submersible water pump  AS N/A model: Astro 4000
Tincture of iodine solution  (Povidone Iodine) Farmasi Fajr Sdn Bhd N/A N/A
Tissue paper  N/A N/A
Transparent plastic aquarium Ming Yu Three N/A aquarium and pet shop
Waterproof table Hatcheri AKUATROP  N/A Research Center of Universiti Malaysia Terengganu
DOWNLOAD MATERIALS LIST

Referenzen

  1. Keenan, C. P., Davie, P. J. F., Mann, D. L. A revision of the genus Scylla de Haan, 1833 (Crustacea: Decapoda: Brachyura: Portunidae). Raffles Bulletin of Zoology. 46 (1), 217-245 (1998).
  2. Fazhan, H., et al. Morphological descriptions and morphometric discriminant function analysis reveal an additional four groups of Scylla spp. PeerJ. 8, e8066 (2020).
  3. Ikhwanuddin, M., Bachok, Z., Hilmi, M. G., Azmie, G., Zakaria, M. Z. Species diversity, carapace width-body weight relationship, size distribution and sex ratio of mud crab, genus Scylla from Setiu Wetlands of Terengganu coastal waters Malaysia. Journal of Sustainability Science and Management. 5 (2), 97-109 (2010).
  4. Ikhwanuddin, M., Bachok, Z., Mohd Faizal, W. W. Y., Azmie, G., Abol-Munafi, A. B. Size of maturity of mud crab Scylla olivacea (Herbst, 1796) from mangrove areas of Terengganu coastal waters. Journal of Sustainability Science and Management. 5 (2), 134-147 (2010).
  5. Waiho, K., et al. On types of sexual maturity in brachyurans, with special reference to size at the onset of sexual maturity. Journal of Shellfish Research. 36 (3), 807-839 (2017).
  6. Mykles, D. L., Chang, E. S. Hormonal control of the crustacean molting gland: Insights from transcriptomics and proteomics. General and Comparative Endocrinology. 294, 113493 (2020).
  7. Fujaya, Y., et al. Is limb autotomy really efficient compared to traditional rearing in soft-shell crab (Scylla olivacea) production. Aquaculture Reports. 18, 100432 (2020).
  8. Waiho, K., et al. Moult induction methods in soft-shell crab production. Aquaculture Research. 52 (9), 4026-4042 (2021).
  9. Rahman, M. R., et al. Evaluation of limb autotomy as a promising strategy to improve production performances of mud crab (Scylla olivacea) in the soft-shell farming system. Aquaculture Research. 51 (6), 2555-2572 (2020).
  10. Okumura, T., et al. Expression of vitellogenin and cortical rod proteins during induced ovarian development by eyestalk ablation in the kuruma prawn, Marsupenaeus japonicus. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology. 143 (2), 246-253 (2006).
  11. Pervaiz, P. A., Jhon, S. M., Sikdar-bar, M. Studies on the effect of unilateral eyestalk ablation in maturation of gonads of a freshwater prawn Macrobrachium dayanum. World Journal of Zoology. 6 (2), 159-163 (2011).
  12. Primavera, J. H. Induced maturation and spawning in five-month-old Penaeus monodon Fabricius by eyestalk ablation. Aquaculture. 13 (4), 355-359 (1978).
  13. Shyne Anand, P. S., et al. Reproductive performance of wild brooders of Indian white shrimp, Penaeus indicus: Potential and challenges for selective breeding program. Journal of Coastal Research. 86 (sp1), 65 (2019).
  14. Diarte-Plata, G., et al. Eyestalk ablation procedures to minimize pain in the freshwater prawn Macrobrachium americanum. Applied Animal Behaviour Science. 140 (3-4), 172-178 (2012).
  15. Vargas-Téllez, I., et al. Impact of unilateral eyestalk ablation on Callinectes arcuatus (Ordway, 1863) under laboratory conditions: Behavioral evaluation. Latin American Journal of Aquatic Research. 49 (4), 576-594 (2021).
  16. Chu, K. H., Chow, W. K. Effects of unilateral versus bilateral eyestalk ablation on molting and growth of the shrimp, Penaeus chinensis Osbeck, 1765) (Decapoda, Penaeidea). Crustaceana. 62 (3), 225-233 (1992).
  17. Taylor, J. Minimizing the effects of stress during eyestalk ablation of Litopenaeus vannamei females with topical anesthetic and a coagulating agent. Aquaculture. 233 (1-4), 173-179 (2004).
  18. Wang, M., Ye, H., Miao, L., Li, X. Role of short neuropeptide F in regulating eyestalk neuroendocrine systems in the mud crab Scylla paramamosain. Aquaculture. 560, 738493 (2022).
  19. Nagaraju, G. P. C. Reproductive regulators in decapod crustaceans: an overview. Journal of Experimental Biology. 214 (1), 3-16 (2011).
  20. Kornthong, N., et al. Characterization of red pigment concentrating hormone (RPCH) in the female mud crab (Scylla olivacea) and the effect of 5-HT on its expression. General and Comparative Endocrinology. 185, 28-36 (2013).
  21. Kornthong, N., et al. Molecular characterization of a vitellogenesis-inhibiting hormone (VIH) in the mud crab (Scylla olivacea) and temporal changes in abundances of VIH mRNA transcripts during ovarian maturation and following neurotransmitter administration. Animal Reproduction Science. 208, 106122 (2019).
  22. Liu, C., et al. VIH from the mud crab is specifically expressed in the eyestalk and potentially regulated by transactivator of Sox9/Oct4/Oct1. General and Comparative Endocrinology. 255, 1-11 (2018).
  23. Chen, H. -. Y., Kang, B. J., Sultana, Z., Wilder, M. N. Variation of protein kinase C-α expression in eyestalk removal-activated ovaries in whiteleg shrimp, Litopenaeus vannamei. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology. 237 (300), 110552 (2019).
  24. Rotllant, G., Nguyen, T. V., Aizen, J., Suwansa-ard, S., Ventura, T. Toward the identification of female gonad-stimulating factors in crustaceans. Hydrobiologia. 825 (1), 91-119 (2018).
  25. Supriya, N. T., Sudha, K., Krishnakumar, V., Anilkumar, G. Molt and reproduction enhancement together with hemolymph ecdysteroid elevation under eyestalk ablation in the female fiddler crab, Uca triangularis (Brachyura: Decapoda). Chinese Journal of Oceanology and Limnology. 35 (3), 645-657 (2017).
  26. Wilder, M. N. Advances in the science of crustacean reproductive physiology and potential applications to new seed production technology. Journal of Coastal Research. 86 (sp1), 6-10 (2019).
  27. Arcos, G. F., Ibarra, A. M., Vazquez-Boucard, C., Palacios, E., Racotta, I. S. Haemolymph metabolic variables in relation to eyestalk ablation and gonad development of Pacific white shrimp Litopenaeus vannamei Boone. Aquaculture Research. 34 (9), 749-755 (2003).
  28. Desai, U. M., Achuthankutty, C. T. Complete regeneration of ablated eyestalk in penaeid prawn, Penaeus monodon. Current Science. 79 (11), 1602-1603 (2000).
  29. Wu, Q., et al. Growth performance and biochemical composition dynamics of ovary, hepatopancreas and muscle tissues at different ovarian maturation stages of female mud crab, Scylla paramamosain. Aquaculture. 515, 734560 (2020).
  30. Ghazali, A., Azra, M. N., Noordin, N. M., Abol-Munafi, A. B., Ikhwanuddin, M. Ovarian morphological development and fatty acids profile of mud crab (Scylla olivacea) fed with various diets. Aquaculture. 468 (Part 1), 45-52 (2017).
  31. Farhadi, A., et al. The regulatory mechanism of sexual development in decapod crustaceans. Frontiers in Marine Science. 8, (2021).
  32. Sukardi, P., Prayogo, N. A., Harisam, T., Sudaryono, A. Effect of eyestalk-ablation and differences salinity in rearing pond on molting speed of Scylla serrata. AIP Conference Proceedings. 2094, 020029 (2019).
  33. Stella, V. S., López Greco, L. S., Rodríguez, E. M. Effects of eyestalk ablation at different times of the year on molting and reproduction of the estuarine grapsid crab Chasmagnathus granulata (Decapoda, Brachyura). Journal of Crustacean Biology. 20 (2), 239-244 (2000).
  34. Jang, I. K., et al. The effects of manipulating water temperature, photoperiod, and eyestalk ablation on gonad maturation of the swimming crab, Portunus trituberculatus. Crustaceana. 83 (2), 129-141 (2010).
  35. Millamena, O. M., Quinitio, E. The effects of diets on reproductive performance of eyestalk ablated and intact mud crab Scylla serrata. Aquaculture. 181 (1-2), 81-90 (2000).
  36. Zeng, C. Induced out-of-season spawning of the mud crab, Scylla paramamosain (Estampador) and effects of temperature on embryo development. Aquaculture Research. 38 (14), 1478-1485 (2007).
  37. Rana, S. Eye stalk ablation of freshwater crab, Barytelphusa lugubris: An alternative approach of hormonal induced breeding. International Journal of Pure and Applied Zoology. 6 (3), 30-34 (2018).
  38. Yi, S. -. K., Lee, S. -. G., Lee, J. -. M. Preliminary study of seed production of the Micronesian mud crab Scylla serrata (Crustacea: Portunidae) in Korea. Ocean and Polar Research. 31 (3), 257-264 (2009).
  39. Azra, M. N., Abol-Munafi, A. B., Ikhwanuddin, M. A review of broodstock improvement to brachyuran crab: Reproductive performance. International Journal of Aquaculture. 5 (38), 1-10 (2016).
  40. Archibald, K. E., Scott, G. N., Bailey, K. M., Harms, C. A. 2-phenoxyethanol (2-PE) and tricaine methanesulfonate (MS-222) immersion anesthesia of American horseshoe crabs (Limulus polyphemus). Journal of Zoo and Wildlife Medicine. 50 (1), 96-106 (2019).
  41. Muhd-Farouk, H., Abol-Munafi, A. B., Jasmani, S., Ikhwanuddin, M. Effect of steroid hormones 17α-hydroxyprogesterone and 17α-hydroxypregnenolone on ovary external morphology of orange mud crab, Scylla olivacea. Asian Journal of Cell Biology. 9 (1), 23-28 (2013).
  42. Muhd-Farouk, H., Jasmani, S., Ikhwanuddin, M. Effect of vertebrate steroid hormones on the ovarian maturation stages of orange mud crab, Scylla olivacea (Herbst, 1796). Aquaculture. 451, 78-86 (2016).
  43. Ghazali, A., Mat Noordin, N., Abol-Munafi, A. B., Azra, M. N., Ikhwanuddin, M. Ovarian maturation stages of wild and captive mud crab, Scylla olivacea fed with two diets. Sains Malaysiana. 46 (12), 2273-2280 (2017).
  44. Aaqillah-Amr, M. A., Hidir, A., Noordiyana, M. N., Ikhwanuddin, M. Morphological, biochemical and histological analysis of mud crab ovary and hepatopancreas at different stages of development. Animal Reproduction Science. 195, 274-283 (2018).
  45. Amin-Safwan, A., Muhd-Farouk, H., Mardhiyyah, M. P., Nadirah, M., Ikhwanuddin, M. Does water salinity affect the level of 17β-estradiol and ovarian physiology of orange mud crab, Scylla olivacea (Herbst, 1796) in captivity. Journal of King Saud University – Science. 31 (4), 827-835 (2019).
  46. Wu, X., et al. Effect of dietary supplementation of phospholipids and highly unsaturated fatty acids on reproductive performance and offspring quality of Chinese mitten crab, Eriocheir sinensis (H. Milne-Edwards), female broodstock. Aquaculture. 273 (4), 602-613 (2007).
  47. Azra, M. N., Ikhwanuddin, M. A review of maturation diets for mud crab genus Scylla broodstock: Present research, problems and future perspective. Saudi Journal of Biological Sciences. 23 (2), 257-267 (2016).
  48. Maschio Rodrigues, M., López Greco, L. S., de Almeida, L. C. F., Bertini, G. Reproductive performance of Macrobrachium acanthurus (Crustacea, Palaemonidae) females subjected to unilateral eyestalk ablation. Acta Zoologica. 103 (3), 326-334 (2022).
  49. Zhang, C., et al. Changes in bud morphology, growth-related genes and nutritional status during cheliped regeneration in the Chinese mitten crab, Eriocheir sinensis. PLoS One. 13 (12), e0209617 (2018).
  50. Zhang, C., et al. Hemolymph transcriptome analysis of Chinese mitten crab (Eriocheir sinensis) with intact, left cheliped autotomy and bilateral eyestalk ablation. Fish & Shellfish Immunology. 81, 266-275 (2018).
  51. Diarte-Plata, G., Sainz-Hernandez, J. C., Aguiñaga-Cruz, J. A., Fierro-Coronado, J. A., Polanco-Torres, A., Puente-Palazuelos, C. Eyestalk ablation procedures to minimize pain in the freshwater prawn Macrobrachium americanum. Applied Animal Behaviour Science. 130 (3-4), 172-178 (2012).
  52. Mirera, D. O., Moksnes, P. O. Comparative performance of wild juvenile mud crab (Scylla serrata) in different culture systems in East Africa: Effect of shelter, crab size and stocking density. Aquaculture International. 23 (1), 155-173 (2015).
  53. Ut, V. N., Le Vay, L., Nghia, T. T., Hong Hanh, T. T. Development of nursery cultures for the mud crab Scylla paramamosain (Estampador). Aquaculture Research. 38 (14), 1563-1568 (2007).
  54. Fazhan, H., et al. Limb loss and feeding ability in the juvenile mud crab Scylla olivacea: Implications of limb autotomy for aquaculture practice. Applied Animal Behaviour Science. 247, 105553 (2022).

Tags

Eyestalk AblationMud CrabOvarian MaturationStress MinimizationAnesthesiaCauterizationSurgical AblationOvarian Maturation Stages
check_url/de/65039?article_type=t

Play Video
PDF
DOI
DOWNLOAD MATERIALS LIST
Diesen Artikel zitieren
Asmat-Ullah, M., Rozaimi, R., Fazhan, H., Shu-Chien, A. C., Wang, Y., Waiho, K. Eyestalk Ablation to Increase Ovarian Maturation in Mud Crabs. J. Vis. Exp. (193), e65039, doi:10.3791/65039 (2023).
Zitat herunterladen
Nachdrucke und Berechtigungen

View Video

To prove you're not a robot, please enter the text in the image below

CAPTCHA Image
Play CAPTCHA Audio
Refresh Image