Effect of environmental parameters on immune response of the Indian spiny lobster, Panulirus homarus (Linnaeus, 1758)

“…However, after a 48 h or 72 h air exposure, superoxide anion production was unable to recover even when returned to seawater for 24 h. Whilst the majority of studies that have specifically measured superoxide anion production do so in bivalve molluscs, a number of authors have also employed these techniques to investigate ROS production in other phyla. In the Indian spiny lobster, Panulirus homarus, superoxide anion production was significantly reduced by both a reduction and an increase in salinity compared to controls after a 7 d exposure [93], and a natural infection with IMNV was demonstrated to cause a 50% increase in superoxide anion production in the Pacific whiteleg shrimp L. (¼Penaeus) vannamei, however only at an advanced stage of the infection when recovery was thought to be unlikely [80]. Exposure to a number of immunostimulants has also been shown to increase ROS production in the Japanese common sea cucumber Apostichopus japonicus [94].…”

“…Bouilly et al [57] showed an increase in phenoloxidase like (PO-like) activity of the Pacific oyster C. gigas when exposed to a cadmium concentration of 0.5 mg l À1 after an exposure of 66 days, with the study demonstrating no effect of cadmium on PO-like activity when compared with controls at lower concentrations or a shorter exposure duration. In contrast, Verghese et al [93] showed PO activity to decrease in the Indian spiny lobster P. homarus in response to hypoxia, ammonia-N concentration and a change in pH. Together with a reduction in PO activity, environmental stressors have also been shown to alter the activity of the antioxidant enzyme superoxide dismutase (SOD).…”

Immunological function in marine invertebrates: Responses to environmental perturbation

“…However, after a 48 h or 72 h air exposure, superoxide anion production was unable to recover even when returned to seawater for 24 h. Whilst the majority of studies that have specifically measured superoxide anion production do so in bivalve molluscs, a number of authors have also employed these techniques to investigate ROS production in other phyla. In the Indian spiny lobster, Panulirus homarus, superoxide anion production was significantly reduced by both a reduction and an increase in salinity compared to controls after a 7 d exposure [93], and a natural infection with IMNV was demonstrated to cause a 50% increase in superoxide anion production in the Pacific whiteleg shrimp L. (¼Penaeus) vannamei, however only at an advanced stage of the infection when recovery was thought to be unlikely [80]. Exposure to a number of immunostimulants has also been shown to increase ROS production in the Japanese common sea cucumber Apostichopus japonicus [94].…”

“…Bouilly et al [57] showed an increase in phenoloxidase like (PO-like) activity of the Pacific oyster C. gigas when exposed to a cadmium concentration of 0.5 mg l À1 after an exposure of 66 days, with the study demonstrating no effect of cadmium on PO-like activity when compared with controls at lower concentrations or a shorter exposure duration. In contrast, Verghese et al [93] showed PO activity to decrease in the Indian spiny lobster P. homarus in response to hypoxia, ammonia-N concentration and a change in pH. Together with a reduction in PO activity, environmental stressors have also been shown to alter the activity of the antioxidant enzyme superoxide dismutase (SOD).…”

Immunological function in marine invertebrates: Responses to environmental perturbation

“…Beberapa penelitian telah dilakukan untuk mencegah terjadinya infeksi penyakit, di antaranya dengan perbaikan mutu lingkungan dan penyediaan pakan dengan formulasi yang memadai. Hasil penelitian pengaruh parameter lingkungan dan lama penampungan terhadap respons imun pada P. homarus dan P. cygnus menunjukkan bahwa perubahan ekstrem lingkungan dan efek penampungan (empat hari) dapat menginduksi perubahan imunitas lobster (Verghese et al, 2007).…”

RESPON IMUNITAS BENIH LOBSTER, Panulirus homarus DENGAN PENGGUNAAN PROBIOTIK PADA PAKAN MOIST

“…Dengan penggunaan rasio shelter 4 : 5 mampu menghasilkan kelangsungan hidup yang tinggi dan respons stres yang cukup stabil. Menurut Fotedar et al (2006); Verghese et al (2007), stres dapat menyebabkan turunnya kemampuan imunologi terhadap penyakit, gangguan pertumbuhan, kinerja reproduksi yang buruk dan kelangsungan hidup lebih rendah.…”

TOTAL HEMOCYTE COUNT AND HEMOLYMPH GLUCOSE CONCENRATION RESPONSE OF SPINY LOBSTER Panulirus homarus ON RATIO OF SHELTER