AUTOMATIC WATER QUALITY CONTROL SYSTEM FOR RED CRAYFISH BREEDER CULTURE
Keywords:
Automatic Control System, Red Crayfish, Water QualityAbstract
This research offers automatic water quality control for Red Crayfish. Using the Arduino microcontroller board to process of the temperature value, pH value and oxygen value in water used for Red Crayfish. The purpose to design and build of Red Crayfish aquarium and to control temperature, pH and oxygen in water, Used for Red Crayfish were suitable for the growth. The research found that the design and construction of the Red Crayfish aquarium is octagonal, 120 cm in diameter, 30 cm high, Can feed 8 pairs of Red Crayfish and control the temperature in the 25- 29 Celsius, The pH is in the range of 7-9 and the oxygen content is more than 4 ppm effective. It took less than 30 minutes to adjust water quality, which did not affect the growth of Red Crayfish.
References
Carolina Tropea, Yanina Piazza and Laura S. López Greco,. (2010). Effect of long-term exposure to high temperature on survival, growth and reproductive parameters of the “redclaw” crayfish Cheraxquadricarinatus, Aquaculture, 302, (1-2), 49.
Chris R.King. (1994). Growth and survival of redclaw crayfish hatchlings (Cheraxquadricarinatus von Martens) in relation to temperature, with comments on the relative suitabitity of Cheraxquadricarinatus and Cherax destructor for culture Queensland Aquaculture 122 (1), 15 April, 75-80.
Freshwater Crayfish Aquaculture in North America, Europe, and Australia. Food Products Press, New York, USA, 157 -216.
García-Guerrero, M., P. Hernández-Sandoval, J. Orduña-Rojas, and E. Cortés-Jacinto. (2013). Effect of temperature on weight increase, survival, and thermal preference of juvenile redclawcrayfsh Cheraxquadricarinatus. Hidrobiológica. 23(1),73-81.
Ghanawi, J., and I. P. Saoud. (2012). Molting, reproductive biology, and hatchery management of redclawcrayfshCheraxquadricarinatus (von Martens 1868).Aquaculture, 358, 183-195
Karplus, I., Barki, A., (2004). Social control of growth in the redclaw crayfish, Cheraxquadricarinatus: testing the sensory modalities involved. Aquaculture, 242, 321–333.
Manomaitis, L. (2001). Assessment of the crude protein requirement of juvenile red claw crayfsh (Cheraxquadricarinatus). MSc Thesis, Auburn University, Auburn.
Manor, R., Segev, R., Leibovitz, M.P., Aflalo, E.D., Sagi, A., (2002). Intensification of redclaw crayfish Cheraxquadricarinatus culture II. Growout in a separate cell system. Aquac. Eng. 26,263–276.
Marcelo García-Guerrero, Pedro Hernández-Sandoval,JavierOrduña-Rojas&Edilmar Cortés-Jacinto (2013) Effect of temperature on weight increase, survival, and thermal preference of juvenile redclaw crayfish Cheraxquadricarinatus. Hidrobiológica, 23 (1), 73-81
Mark E. Meade Jeanette E. DoellerDavidW. Kraus Stephen A. Watts (2002). Effects of Temperature and Salinity on Weight Gain, Oxygen Consumption Rate, and Growth Efficiency in Juvenile Red‐Claw Crayfish Cheraxquadricarinatus. World Aquaculture Society 33(2), June 2002, 188-198.
Nitipong Somchaiwong, Thanaphol Intayuang, Anuruk Paoka1 & Issaret Namaung. (2017). Design and Building pH and Dissolved Oxygen control systems in Fancy Carp Pond. KASALONGKHAM RESEARCH JOURNAL.11(3) Special Issue, 327-341. (in Thai)
Parnes, S., Sagi, A., (2002). Intensification of redclaw crayfish Cheraxquadricarinatus culture I. Hatching and nursery system. Aquacult. Eng. 26, PII no: S0144-8609(02)00034-1 (AQUE 1211).
Pornthep Niamphithak, Sutee Wongmaneeprateep, Siripavee Charoenwattanasak &Paprawit Yosvichit. (2014). Effect of Salinity on Growth Performance Survival Rate and Molting of
Australian Redclaw Crayfish (Cherax quadricarinatus). PAWARUN AGRICULTURE JOURNAL.11(1), January – June 2014, 39-46. (in Thai)
Songsub Arungamol, Sarinee Buddawong and Nopparat Patchanee. (2017). Effect of dietary protein level on growth performance and survival rate of juvenile Red claw crayfish (Cherax quadricarinatus,Von Martens 1868). KHON KAEN AGR. J. 45 (SUPPL), 896-902. (in Thai)
Surichai Toumchokkasem & Surachad.Towarapa (2010). Intelligent Multi Function Aquarium . ECTI-CARD Proceedings 2010, May 10. Pattaya, Thailand, 48-53. (in Thai)
Thammapan Phasbud, Phatommaporn Sripadungtom. (2009). Automatic Dissolved Oxygen Enhancement System for Pond Powered by Solar Cells. ECTI-CARD 2009., May 4-6, Bangkok, Thailand, 25-30. (in Thai)
Thawatchai Thongluem, Werasak Cheunta, Harithai Dinsakun &Banjoen Jaroenpan. (2014). Automatic Water Quality Measurement and Processing for Krachang-Taptim Fish. ECTI-CARD Proceedings 2014, May 21-23, Chiang Mai, Thailand, 48-53. (in Thai)
Chris R.King. (1994). Growth and survival of redclaw crayfish hatchlings (Cheraxquadricarinatus von Martens) in relation to temperature, with comments on the relative suitabitity of Cheraxquadricarinatus and Cherax destructor for culture Queensland Aquaculture 122 (1), 15 April, 75-80.
Freshwater Crayfish Aquaculture in North America, Europe, and Australia. Food Products Press, New York, USA, 157 -216.
García-Guerrero, M., P. Hernández-Sandoval, J. Orduña-Rojas, and E. Cortés-Jacinto. (2013). Effect of temperature on weight increase, survival, and thermal preference of juvenile redclawcrayfsh Cheraxquadricarinatus. Hidrobiológica. 23(1),73-81.
Ghanawi, J., and I. P. Saoud. (2012). Molting, reproductive biology, and hatchery management of redclawcrayfshCheraxquadricarinatus (von Martens 1868).Aquaculture, 358, 183-195
Karplus, I., Barki, A., (2004). Social control of growth in the redclaw crayfish, Cheraxquadricarinatus: testing the sensory modalities involved. Aquaculture, 242, 321–333.
Manomaitis, L. (2001). Assessment of the crude protein requirement of juvenile red claw crayfsh (Cheraxquadricarinatus). MSc Thesis, Auburn University, Auburn.
Manor, R., Segev, R., Leibovitz, M.P., Aflalo, E.D., Sagi, A., (2002). Intensification of redclaw crayfish Cheraxquadricarinatus culture II. Growout in a separate cell system. Aquac. Eng. 26,263–276.
Marcelo García-Guerrero, Pedro Hernández-Sandoval,JavierOrduña-Rojas&Edilmar Cortés-Jacinto (2013) Effect of temperature on weight increase, survival, and thermal preference of juvenile redclaw crayfish Cheraxquadricarinatus. Hidrobiológica, 23 (1), 73-81
Mark E. Meade Jeanette E. DoellerDavidW. Kraus Stephen A. Watts (2002). Effects of Temperature and Salinity on Weight Gain, Oxygen Consumption Rate, and Growth Efficiency in Juvenile Red‐Claw Crayfish Cheraxquadricarinatus. World Aquaculture Society 33(2), June 2002, 188-198.
Nitipong Somchaiwong, Thanaphol Intayuang, Anuruk Paoka1 & Issaret Namaung. (2017). Design and Building pH and Dissolved Oxygen control systems in Fancy Carp Pond. KASALONGKHAM RESEARCH JOURNAL.11(3) Special Issue, 327-341. (in Thai)
Parnes, S., Sagi, A., (2002). Intensification of redclaw crayfish Cheraxquadricarinatus culture I. Hatching and nursery system. Aquacult. Eng. 26, PII no: S0144-8609(02)00034-1 (AQUE 1211).
Pornthep Niamphithak, Sutee Wongmaneeprateep, Siripavee Charoenwattanasak &Paprawit Yosvichit. (2014). Effect of Salinity on Growth Performance Survival Rate and Molting of
Australian Redclaw Crayfish (Cherax quadricarinatus). PAWARUN AGRICULTURE JOURNAL.11(1), January – June 2014, 39-46. (in Thai)
Songsub Arungamol, Sarinee Buddawong and Nopparat Patchanee. (2017). Effect of dietary protein level on growth performance and survival rate of juvenile Red claw crayfish (Cherax quadricarinatus,Von Martens 1868). KHON KAEN AGR. J. 45 (SUPPL), 896-902. (in Thai)
Surichai Toumchokkasem & Surachad.Towarapa (2010). Intelligent Multi Function Aquarium . ECTI-CARD Proceedings 2010, May 10. Pattaya, Thailand, 48-53. (in Thai)
Thammapan Phasbud, Phatommaporn Sripadungtom. (2009). Automatic Dissolved Oxygen Enhancement System for Pond Powered by Solar Cells. ECTI-CARD 2009., May 4-6, Bangkok, Thailand, 25-30. (in Thai)
Thawatchai Thongluem, Werasak Cheunta, Harithai Dinsakun &Banjoen Jaroenpan. (2014). Automatic Water Quality Measurement and Processing for Krachang-Taptim Fish. ECTI-CARD Proceedings 2014, May 21-23, Chiang Mai, Thailand, 48-53. (in Thai)
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Published
2019-08-29
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Section
บทความวิจัย (Research Article)
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