�ݺ�ߣshows by User: Rajesh-007

�ݺ�ߣshows by User: Rajesh-007 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: Rajesh-007 / Wed, 31 Jul 2024 08:05:59 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: Rajesh-007 Sense organs and their functions in Fish /slideshow/sense-organs-and-their-functions-in-fish/270635939 senseorgansandtheirfunctions-240731080559-9b011705
The sensory systems of fish are crucial for their survival, enabling them to perceive and respond to their environment effectively. Fish rely on their senses of sight, smell, taste, hearing, and the mechanosensation provided by the lateral line system to navigate, locate prey, avoid predators, and communicate. Their eyes, with complex structures and visual pigments, allow them to perceive light, shapes, colors, and movements underwater, adapting to varying lighting conditions. The olfactory and gustatory systems detect chemical cues, helping fish find food, identify mates, and navigate. Specialized receptors and taste buds enhance their sensitivity to chemical stimuli. The lateral line system detects water movements, vibrations, and pressure changes, aiding in spatial orientation, predator avoidance, and prey detection. These integrated sensory systems enable fish to thrive in diverse aquatic habitats. Understanding fish sensory perception is vital for conservation, fisheries management, and aquaculture practices.]]>
The sensory systems of fish are crucial for their survival, enabling them to perceive and respond to their environment effectively. Fish rely on their senses of sight, smell, taste, hearing, and the mechanosensation provided by the lateral line system to navigate, locate prey, avoid predators, and communicate. Their eyes, with complex structures and visual pigments, allow them to perceive light, shapes, colors, and movements underwater, adapting to varying lighting conditions. The olfactory and gustatory systems detect chemical cues, helping fish find food, identify mates, and navigate. Specialized receptors and taste buds enhance their sensitivity to chemical stimuli. The lateral line system detects water movements, vibrations, and pressure changes, aiding in spatial orientation, predator avoidance, and prey detection. These integrated sensory systems enable fish to thrive in diverse aquatic habitats. Understanding fish sensory perception is vital for conservation, fisheries management, and aquaculture practices.]]> Wed, 31 Jul 2024 08:05:59 GMT /slideshow/sense-organs-and-their-functions-in-fish/270635939 Rajesh-007@slideshare.net(Rajesh-007) Sense organs and their functions in Fish Rajesh-007 The sensory systems of fish are crucial for their survival, enabling them to perceive and respond to their environment effectively. Fish rely on their senses of sight, smell, taste, hearing, and the mechanosensation provided by the lateral line system to navigate, locate prey, avoid predators, and communicate. Their eyes, with complex structures and visual pigments, allow them to perceive light, shapes, colors, and movements underwater, adapting to varying lighting conditions. The olfactory and gustatory systems detect chemical cues, helping fish find food, identify mates, and navigate. Specialized receptors and taste buds enhance their sensitivity to chemical stimuli. The lateral line system detects water movements, vibrations, and pressure changes, aiding in spatial orientation, predator avoidance, and prey detection. These integrated sensory systems enable fish to thrive in diverse aquatic habitats. Understanding fish sensory perception is vital for conservation, fisheries management, and aquaculture practices. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/senseorgansandtheirfunctions-240731080559-9b011705-thumbnail.jpg?width=120&height=120&fit=bounds" /> The sensory systems of fish are crucial for their survival, enabling them to perceive and respond to their environment effectively. Fish rely on their senses of sight, smell, taste, hearing, and the mechanosensation provided by the lateral line system to navigate, locate prey, avoid predators, and communicate. Their eyes, with complex structures and visual pigments, allow them to perceive light, shapes, colors, and movements underwater, adapting to varying lighting conditions. The olfactory and gustatory systems detect chemical cues, helping fish find food, identify mates, and navigate. Specialized receptors and taste buds enhance their sensitivity to chemical stimuli. The lateral line system detects water movements, vibrations, and pressure changes, aiding in spatial orientation, predator avoidance, and prey detection. These integrated sensory systems enable fish to thrive in diverse aquatic habitats. Understanding fish sensory perception is vital for conservation, fisheries management, and aquaculture practices.

Sense organs and their functions in Fish from Rajesh Chudasama

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0 Biosensors in Aquatic Environment Toxicity Assessment, Ecolabelling, and Traceability.pptx /slideshow/biosensors-in-aquatic-environment-toxicity-assessment-ecolabelling-and-traceability-pptx/270635910 biosensorsinaquaticenvironmenttoxicityassessmentecolabellingandtraceability-240731080512-5437ee44
Biosensors, ecolabeling, and traceability are indispensable tools for promoting sustainability across sectors like environmental monitoring and seafood production. Biosensors enable proactive pollution mitigation, while ecolabeling empowers consumers to support responsible practices. Traceability ensures the safety and ethical sourcing of seafood, enhancing transparency and accountability. Through collaboration and innovation, stakeholders can build resilient supply chains and preserve marine ecosystems for a sustainable future. ]]>
Biosensors, ecolabeling, and traceability are indispensable tools for promoting sustainability across sectors like environmental monitoring and seafood production. Biosensors enable proactive pollution mitigation, while ecolabeling empowers consumers to support responsible practices. Traceability ensures the safety and ethical sourcing of seafood, enhancing transparency and accountability. Through collaboration and innovation, stakeholders can build resilient supply chains and preserve marine ecosystems for a sustainable future. ]]> Wed, 31 Jul 2024 08:05:11 GMT /slideshow/biosensors-in-aquatic-environment-toxicity-assessment-ecolabelling-and-traceability-pptx/270635910 Rajesh-007@slideshare.net(Rajesh-007) Biosensors in Aquatic Environment Toxicity Assessment, Ecolabelling, and Traceability.pptx Rajesh-007 Biosensors, ecolabeling, and traceability are indispensable tools for promoting sustainability across sectors like environmental monitoring and seafood production. Biosensors enable proactive pollution mitigation, while ecolabeling empowers consumers to support responsible practices. Traceability ensures the safety and ethical sourcing of seafood, enhancing transparency and accountability. Through collaboration and innovation, stakeholders can build resilient supply chains and preserve marine ecosystems for a sustainable future. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/biosensorsinaquaticenvironmenttoxicityassessmentecolabellingandtraceability-240731080512-5437ee44-thumbnail.jpg?width=120&height=120&fit=bounds" /> Biosensors, ecolabeling, and traceability are indispensable tools for promoting sustainability across sectors like environmental monitoring and seafood production. Biosensors enable proactive pollution mitigation, while ecolabeling empowers consumers to support responsible practices. Traceability ensures the safety and ethical sourcing of seafood, enhancing transparency and accountability. Through collaboration and innovation, stakeholders can build resilient supply chains and preserve marine ecosystems for a sustainable future.

Biosensors in Aquatic Environment Toxicity Assessment, Ecolabelling, and Traceability.pptx from Rajesh Chudasama

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0 Aquaculture and Ecosystem Relationship.pptx /slideshow/aquaculture-and-ecosystem-relationship-pptx/270635873 aquacultureandecosystemrelationship-240731080314-31e88193
The rapid growth of aquaculture has become a significant contributor to global food production, supporting livelihoods, economic development, and food security. However, this expansion poses challenges such as environmental pollution, resource depletion, and vulnerability to climate change impacts. Addressing these challenges is crucial for ensuring the sustainability of aquaculture and securing future food security. Understanding the complex relationship between aquaculture and ecosystems is essential for developing effective management strategies. Sustainable aquaculture practices, including site selection, integrated systems, and responsible resource management, are key to minimizing negative environmental impacts while maximizing social and economic benefits. Conservation and management efforts, such as Marine Protected Areas and sustainable resource management practices, play a vital role in safeguarding marine biodiversity and ecosystem resilience. Additionally, addressing climate change through mitigation and adaptation measures is critical for ensuring the long-term viability of aquaculture operations and marine ecosystems. ]]>
The rapid growth of aquaculture has become a significant contributor to global food production, supporting livelihoods, economic development, and food security. However, this expansion poses challenges such as environmental pollution, resource depletion, and vulnerability to climate change impacts. Addressing these challenges is crucial for ensuring the sustainability of aquaculture and securing future food security. Understanding the complex relationship between aquaculture and ecosystems is essential for developing effective management strategies. Sustainable aquaculture practices, including site selection, integrated systems, and responsible resource management, are key to minimizing negative environmental impacts while maximizing social and economic benefits. Conservation and management efforts, such as Marine Protected Areas and sustainable resource management practices, play a vital role in safeguarding marine biodiversity and ecosystem resilience. Additionally, addressing climate change through mitigation and adaptation measures is critical for ensuring the long-term viability of aquaculture operations and marine ecosystems. ]]> Wed, 31 Jul 2024 08:03:14 GMT /slideshow/aquaculture-and-ecosystem-relationship-pptx/270635873 Rajesh-007@slideshare.net(Rajesh-007) Aquaculture and Ecosystem Relationship.pptx Rajesh-007 The rapid growth of aquaculture has become a significant contributor to global food production, supporting livelihoods, economic development, and food security. However, this expansion poses challenges such as environmental pollution, resource depletion, and vulnerability to climate change impacts. Addressing these challenges is crucial for ensuring the sustainability of aquaculture and securing future food security. Understanding the complex relationship between aquaculture and ecosystems is essential for developing effective management strategies. Sustainable aquaculture practices, including site selection, integrated systems, and responsible resource management, are key to minimizing negative environmental impacts while maximizing social and economic benefits. Conservation and management efforts, such as Marine Protected Areas and sustainable resource management practices, play a vital role in safeguarding marine biodiversity and ecosystem resilience. Additionally, addressing climate change through mitigation and adaptation measures is critical for ensuring the long-term viability of aquaculture operations and marine ecosystems. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/aquacultureandecosystemrelationship-240731080314-31e88193-thumbnail.jpg?width=120&height=120&fit=bounds" /> The rapid growth of aquaculture has become a significant contributor to global food production, supporting livelihoods, economic development, and food security. However, this expansion poses challenges such as environmental pollution, resource depletion, and vulnerability to climate change impacts. Addressing these challenges is crucial for ensuring the sustainability of aquaculture and securing future food security. Understanding the complex relationship between aquaculture and ecosystems is essential for developing effective management strategies. Sustainable aquaculture practices, including site selection, integrated systems, and responsible resource management, are key to minimizing negative environmental impacts while maximizing social and economic benefits. Conservation and management efforts, such as Marine Protected Areas and sustainable resource management practices, play a vital role in safeguarding marine biodiversity and ecosystem resilience. Additionally, addressing climate change through mitigation and adaptation measures is critical for ensuring the long-term viability of aquaculture operations and marine ecosystems.

Aquaculture and Ecosystem Relationship.pptx from Rajesh Chudasama

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0 Physiology of Migration and Behaviour in Fish.pptx /slideshow/physiology-of-migration-and-behaviour-in-fish-pptx/270635843 physiologyofmigrationandbehaviourinfish-240731080105-cfc7be22
Fish migration is vital for ecosystems and human activities like fishing. Understanding its physiology and behavior is crucial for effective management and conservation. Factors like light, temperature, and water currents influence migration patterns. Exploitation by fisheries relies on predictability, but management must consider ecological importance. Tagging advancements offer insights into movements and behavior. Further research and technology will aid conservation. Fish migration involves various disciplines and highlights the interconnectedness of aquatic ecosystems, emphasizing the need to preserve natural behaviors for environmental health.]]>
Fish migration is vital for ecosystems and human activities like fishing. Understanding its physiology and behavior is crucial for effective management and conservation. Factors like light, temperature, and water currents influence migration patterns. Exploitation by fisheries relies on predictability, but management must consider ecological importance. Tagging advancements offer insights into movements and behavior. Further research and technology will aid conservation. Fish migration involves various disciplines and highlights the interconnectedness of aquatic ecosystems, emphasizing the need to preserve natural behaviors for environmental health.]]> Wed, 31 Jul 2024 08:01:05 GMT /slideshow/physiology-of-migration-and-behaviour-in-fish-pptx/270635843 Rajesh-007@slideshare.net(Rajesh-007) Physiology of Migration and Behaviour in Fish.pptx Rajesh-007 Fish migration is vital for ecosystems and human activities like fishing. Understanding its physiology and behavior is crucial for effective management and conservation. Factors like light, temperature, and water currents influence migration patterns. Exploitation by fisheries relies on predictability, but management must consider ecological importance. Tagging advancements offer insights into movements and behavior. Further research and technology will aid conservation. Fish migration involves various disciplines and highlights the interconnectedness of aquatic ecosystems, emphasizing the need to preserve natural behaviors for environmental health. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/physiologyofmigrationandbehaviourinfish-240731080105-cfc7be22-thumbnail.jpg?width=120&height=120&fit=bounds" /> Fish migration is vital for ecosystems and human activities like fishing. Understanding its physiology and behavior is crucial for effective management and conservation. Factors like light, temperature, and water currents influence migration patterns. Exploitation by fisheries relies on predictability, but management must consider ecological importance. Tagging advancements offer insights into movements and behavior. Further research and technology will aid conservation. Fish migration involves various disciplines and highlights the interconnectedness of aquatic ecosystems, emphasizing the need to preserve natural behaviors for environmental health.

Physiology of Migration and Behaviour in Fish.pptx from Rajesh Chudasama

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0 Endocrine control of maturation, spermatogenesis, Oogenesis, Spawning Vitellogenesis.pptx /slideshow/endocrine-control-of-maturation-spermatogenesis-oogenesis-spawning-vitellogenesis-pptx/270635819 endocrinecontrolofmaturationspermatogenesisoogenesisspawningvitellogenesis-240731075922-794aad18
The endocrine control of reproduction in fish and shellfish involves complex hormonal networks. In finfish, the hypothalamic-pituitary-gonadal (HPG) axis regulates the release of gonadotropins, FSH, LH, and GnRH, crucial for maturation, gametogenesis, and spawning. Similarly, in shellfish, the X-organ-sinus gland complex in the eyestalk produces hormones like GSH, VIH, and MOIH, controlling ovarian maturation and vitellogenesis. These hormonal signals, along with environmental cues, impact reproductive success. Understanding these mechanisms is vital for optimizing aquaculture, enhancing efficiency, and ensuring sustainable populations. Manipulating these pathways can synchronize spawning, improve egg quality, and support long-term farming viability.]]>
The endocrine control of reproduction in fish and shellfish involves complex hormonal networks. In finfish, the hypothalamic-pituitary-gonadal (HPG) axis regulates the release of gonadotropins, FSH, LH, and GnRH, crucial for maturation, gametogenesis, and spawning. Similarly, in shellfish, the X-organ-sinus gland complex in the eyestalk produces hormones like GSH, VIH, and MOIH, controlling ovarian maturation and vitellogenesis. These hormonal signals, along with environmental cues, impact reproductive success. Understanding these mechanisms is vital for optimizing aquaculture, enhancing efficiency, and ensuring sustainable populations. Manipulating these pathways can synchronize spawning, improve egg quality, and support long-term farming viability.]]> Wed, 31 Jul 2024 07:59:22 GMT /slideshow/endocrine-control-of-maturation-spermatogenesis-oogenesis-spawning-vitellogenesis-pptx/270635819 Rajesh-007@slideshare.net(Rajesh-007) Endocrine control of maturation, spermatogenesis, Oogenesis, Spawning Vitellogenesis.pptx Rajesh-007 The endocrine control of reproduction in fish and shellfish involves complex hormonal networks. In finfish, the hypothalamic-pituitary-gonadal (HPG) axis regulates the release of gonadotropins, FSH, LH, and GnRH, crucial for maturation, gametogenesis, and spawning. Similarly, in shellfish, the X-organ-sinus gland complex in the eyestalk produces hormones like GSH, VIH, and MOIH, controlling ovarian maturation and vitellogenesis. These hormonal signals, along with environmental cues, impact reproductive success. Understanding these mechanisms is vital for optimizing aquaculture, enhancing efficiency, and ensuring sustainable populations. Manipulating these pathways can synchronize spawning, improve egg quality, and support long-term farming viability. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/endocrinecontrolofmaturationspermatogenesisoogenesisspawningvitellogenesis-240731075922-794aad18-thumbnail.jpg?width=120&height=120&fit=bounds" /> The endocrine control of reproduction in fish and shellfish involves complex hormonal networks. In finfish, the hypothalamic-pituitary-gonadal (HPG) axis regulates the release of gonadotropins, FSH, LH, and GnRH, crucial for maturation, gametogenesis, and spawning. Similarly, in shellfish, the X-organ-sinus gland complex in the eyestalk produces hormones like GSH, VIH, and MOIH, controlling ovarian maturation and vitellogenesis. These hormonal signals, along with environmental cues, impact reproductive success. Understanding these mechanisms is vital for optimizing aquaculture, enhancing efficiency, and ensuring sustainable populations. Manipulating these pathways can synchronize spawning, improve egg quality, and support long-term farming viability.

Endocrine control of maturation, spermatogenesis, Oogenesis, Spawning Vitellogenesis.pptx from Rajesh Chudasama

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0 Gas Exchange Concept, Excretion and Osmoregulation in Fish and Shellfishes.pptx /slideshow/gas-exchange-concept-excretion-and-osmoregulation-in-fish-and-shellfishes-pptx/270635796 gasexchangeconceptexcretionandosmoregulationinfishandshellfishes-240731075737-1a04eb0d
The respiratory adaptations of aquatic organisms, like fish and shellfish, ensure efficient gas exchange for survival. These adaptations reflect evolutionary responses and sustain biodiversity. Excretion and osmoregulation mechanisms, facilitated by specialized organs and hormonal regulation, maintain internal balance amidst changing salinity. Understanding these processes is crucial for conserving aquatic ecosystems and understanding organismal adaptation to their environments.]]>
The respiratory adaptations of aquatic organisms, like fish and shellfish, ensure efficient gas exchange for survival. These adaptations reflect evolutionary responses and sustain biodiversity. Excretion and osmoregulation mechanisms, facilitated by specialized organs and hormonal regulation, maintain internal balance amidst changing salinity. Understanding these processes is crucial for conserving aquatic ecosystems and understanding organismal adaptation to their environments.]]> Wed, 31 Jul 2024 07:57:37 GMT /slideshow/gas-exchange-concept-excretion-and-osmoregulation-in-fish-and-shellfishes-pptx/270635796 Rajesh-007@slideshare.net(Rajesh-007) Gas Exchange Concept, Excretion and Osmoregulation in Fish and Shellfishes.pptx Rajesh-007 The respiratory adaptations of aquatic organisms, like fish and shellfish, ensure efficient gas exchange for survival. These adaptations reflect evolutionary responses and sustain biodiversity. Excretion and osmoregulation mechanisms, facilitated by specialized organs and hormonal regulation, maintain internal balance amidst changing salinity. Understanding these processes is crucial for conserving aquatic ecosystems and understanding organismal adaptation to their environments. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/gasexchangeconceptexcretionandosmoregulationinfishandshellfishes-240731075737-1a04eb0d-thumbnail.jpg?width=120&height=120&fit=bounds" /> The respiratory adaptations of aquatic organisms, like fish and shellfish, ensure efficient gas exchange for survival. These adaptations reflect evolutionary responses and sustain biodiversity. Excretion and osmoregulation mechanisms, facilitated by specialized organs and hormonal regulation, maintain internal balance amidst changing salinity. Understanding these processes is crucial for conserving aquatic ecosystems and understanding organismal adaptation to their environments.

Gas Exchange Concept, Excretion and Osmoregulation in Fish and Shellfishes.pptx from Rajesh Chudasama

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0 Automization in Aquaculture.pptx /slideshow/automization-in-aquaculturepptx-260114042/260114042 automizationinaquaculture-230823152936-7b25e6b8
The increase in population and the challenge of feeding them nutritious food is the main issue facing the world. One of the sectors that produces food that is nutrient-rich is the aquaculture industry. This business is entirely reliant on manual labour, which makes for laborious, time-consuming work that consequently raises the cost of production for farmers and results in them receiving a minimal profit today. The effective approach to manage all situation and enhance production while lowering production costs is through automation. water quality monitoring by the sensor-based and controlled areal unnamed vehicles to spray Using biosensors to monitor water quality and remotely piloted aerial vehicles to spray fertiliser or chemicals. The intelligent aeration system regulates the level of dissolved oxygen. The automatic biomass estimation and feeding management are the second things. In order to reduce feed loss and lower the FCR, robotics and automatic feeders are used in ponds and cages. These devices rely on the water's quality and the behaviour of the organisms. A farmer receives information on biomass estimation when the crop is harvested to ensure maximum output. The most essential aspect is the automatic monitoring of the organism's health and welfare management to detect any adverse conditions or early signs of abnormalities. A camera-based visual system known as an underwater surveillance system collects data on water quality, organism activity, feeding, cage biofouling, and net cleaning. The future of the aquaculture sector is automation.]]>
The increase in population and the challenge of feeding them nutritious food is the main issue facing the world. One of the sectors that produces food that is nutrient-rich is the aquaculture industry. This business is entirely reliant on manual labour, which makes for laborious, time-consuming work that consequently raises the cost of production for farmers and results in them receiving a minimal profit today. The effective approach to manage all situation and enhance production while lowering production costs is through automation. water quality monitoring by the sensor-based and controlled areal unnamed vehicles to spray Using biosensors to monitor water quality and remotely piloted aerial vehicles to spray fertiliser or chemicals. The intelligent aeration system regulates the level of dissolved oxygen. The automatic biomass estimation and feeding management are the second things. In order to reduce feed loss and lower the FCR, robotics and automatic feeders are used in ponds and cages. These devices rely on the water's quality and the behaviour of the organisms. A farmer receives information on biomass estimation when the crop is harvested to ensure maximum output. The most essential aspect is the automatic monitoring of the organism's health and welfare management to detect any adverse conditions or early signs of abnormalities. A camera-based visual system known as an underwater surveillance system collects data on water quality, organism activity, feeding, cage biofouling, and net cleaning. The future of the aquaculture sector is automation.]]> Wed, 23 Aug 2023 15:29:36 GMT /slideshow/automization-in-aquaculturepptx-260114042/260114042 Rajesh-007@slideshare.net(Rajesh-007) Automization in Aquaculture.pptx Rajesh-007 The increase in population and the challenge of feeding them nutritious food is the main issue facing the world. One of the sectors that produces food that is nutrient-rich is the aquaculture industry. This business is entirely reliant on manual labour, which makes for laborious, time-consuming work that consequently raises the cost of production for farmers and results in them receiving a minimal profit today. The effective approach to manage all situation and enhance production while lowering production costs is through automation. water quality monitoring by the sensor-based and controlled areal unnamed vehicles to spray Using biosensors to monitor water quality and remotely piloted aerial vehicles to spray fertiliser or chemicals. The intelligent aeration system regulates the level of dissolved oxygen. The automatic biomass estimation and feeding management are the second things. In order to reduce feed loss and lower the FCR, robotics and automatic feeders are used in ponds and cages. These devices rely on the water's quality and the behaviour of the organisms. A farmer receives information on biomass estimation when the crop is harvested to ensure maximum output. The most essential aspect is the automatic monitoring of the organism's health and welfare management to detect any adverse conditions or early signs of abnormalities. A camera-based visual system known as an underwater surveillance system collects data on water quality, organism activity, feeding, cage biofouling, and net cleaning. The future of the aquaculture sector is automation. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/automizationinaquaculture-230823152936-7b25e6b8-thumbnail.jpg?width=120&height=120&fit=bounds" /> The increase in population and the challenge of feeding them nutritious food is the main issue facing the world. One of the sectors that produces food that is nutrient-rich is the aquaculture industry. This business is entirely reliant on manual labour, which makes for laborious, time-consuming work that consequently raises the cost of production for farmers and results in them receiving a minimal profit today. The effective approach to manage all situation and enhance production while lowering production costs is through automation. water quality monitoring by the sensor-based and controlled areal unnamed vehicles to spray Using biosensors to monitor water quality and remotely piloted aerial vehicles to spray fertiliser or chemicals. The intelligent aeration system regulates the level of dissolved oxygen. The automatic biomass estimation and feeding management are the second things. In order to reduce feed loss and lower the FCR, robotics and automatic feeders are used in ponds and cages. These devices rely on the water's quality and the behaviour of the organisms. A farmer receives information on biomass estimation when the crop is harvested to ensure maximum output. The most essential aspect is the automatic monitoring of the organism's health and welfare management to detect any adverse conditions or early signs of abnormalities. A camera-based visual system known as an underwater surveillance system collects data on water quality, organism activity, feeding, cage biofouling, and net cleaning. The future of the aquaculture sector is automation.

Automization in Aquaculture.pptx from Rajesh Chudasama

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0 Current Status; Problems and Prospects for Seed Production of Commercially Important Cultivable Crustaceans and Molluscs..pptx /slideshow/current-status-problems-and-prospects-for-seed-production-of-commercially-important-cultivable-crustaceans-and-molluscspptx/259886777 currentstatusproblemsandprospectsforseedproductionofcommerciallyimportantcultivablecrustaceansandmol-230815055307-671fd65b
India commercial seed production of shellfish is well developed only one shellfish shrimp and prawn this industry monitoring by Costal Aquaculture Authority (CAA). Carb hatcherys are available in India southern states but it is not running like shrimp industry. Other hand lobster and molluscs hatcherys are running in laboratory stages of some institute. In problems of shellfish seed production is not available of good quality of broodstock and biological complexity of life cycle of Sartain species. In future aquaculture production is increasing but it is total dependence on availability of good quality seed. ]]>
India commercial seed production of shellfish is well developed only one shellfish shrimp and prawn this industry monitoring by Costal Aquaculture Authority (CAA). Carb hatcherys are available in India southern states but it is not running like shrimp industry. Other hand lobster and molluscs hatcherys are running in laboratory stages of some institute. In problems of shellfish seed production is not available of good quality of broodstock and biological complexity of life cycle of Sartain species. In future aquaculture production is increasing but it is total dependence on availability of good quality seed. ]]> Tue, 15 Aug 2023 05:53:07 GMT /slideshow/current-status-problems-and-prospects-for-seed-production-of-commercially-important-cultivable-crustaceans-and-molluscspptx/259886777 Rajesh-007@slideshare.net(Rajesh-007) Current Status; Problems and Prospects for Seed Production of Commercially Important Cultivable Crustaceans and Molluscs..pptx Rajesh-007 India commercial seed production of shellfish is well developed only one shellfish shrimp and prawn this industry monitoring by Costal Aquaculture Authority (CAA). Carb hatcherys are available in India southern states but it is not running like shrimp industry. Other hand lobster and molluscs hatcherys are running in laboratory stages of some institute. In problems of shellfish seed production is not available of good quality of broodstock and biological complexity of life cycle of Sartain species. In future aquaculture production is increasing but it is total dependence on availability of good quality seed. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/currentstatusproblemsandprospectsforseedproductionofcommerciallyimportantcultivablecrustaceansandmol-230815055307-671fd65b-thumbnail.jpg?width=120&height=120&fit=bounds" /> India commercial seed production of shellfish is well developed only one shellfish shrimp and prawn this industry monitoring by Costal Aquaculture Authority (CAA). Carb hatcherys are available in India southern states but it is not running like shrimp industry. Other hand lobster and molluscs hatcherys are running in laboratory stages of some institute. In problems of shellfish seed production is not available of good quality of broodstock and biological complexity of life cycle of Sartain species. In future aquaculture production is increasing but it is total dependence on availability of good quality seed.

Current Status; Problems and Prospects for Seed Production of Commercially Important Cultivable Crustaceans and Molluscs..pptx from Rajesh Chudasama

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0 Soil and water interaction__Physical and Chemical Properties of Soil and Water.pptx /Rajesh-007/soil-and-water-interactionphysical-and-chemical-properties-of-soil-and-waterpptx soilandwaterinteractionphysicalandchemicalpropertiesofsoilandwater-230815055203-bd369fc6
In terms of successful and sustainable development of aquaculture two prospects are most important soil and water quality parameters management and its interaction process understanding. Selection of the site for pond construction soil plays a key role. Soil type, water holding capacity, organic matter, available nutrients and chemical composition of soil these parameters are optimum level is required for aquaculture suitable site. After water filling of the pond water parameters like pH, dissolved oxygen, total alkalinity, total hardness and total ammoniacal nitrogen interact with soil composition. That things are also dependent on climatic conditions and weather patterns. ]]>
In terms of successful and sustainable development of aquaculture two prospects are most important soil and water quality parameters management and its interaction process understanding. Selection of the site for pond construction soil plays a key role. Soil type, water holding capacity, organic matter, available nutrients and chemical composition of soil these parameters are optimum level is required for aquaculture suitable site. After water filling of the pond water parameters like pH, dissolved oxygen, total alkalinity, total hardness and total ammoniacal nitrogen interact with soil composition. That things are also dependent on climatic conditions and weather patterns. ]]> Tue, 15 Aug 2023 05:52:03 GMT /Rajesh-007/soil-and-water-interactionphysical-and-chemical-properties-of-soil-and-waterpptx Rajesh-007@slideshare.net(Rajesh-007) Soil and water interaction__Physical and Chemical Properties of Soil and Water.pptx Rajesh-007 In terms of successful and sustainable development of aquaculture two prospects are most important soil and water quality parameters management and its interaction process understanding. Selection of the site for pond construction soil plays a key role. Soil type, water holding capacity, organic matter, available nutrients and chemical composition of soil these parameters are optimum level is required for aquaculture suitable site. After water filling of the pond water parameters like pH, dissolved oxygen, total alkalinity, total hardness and total ammoniacal nitrogen interact with soil composition. That things are also dependent on climatic conditions and weather patterns. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/soilandwaterinteractionphysicalandchemicalpropertiesofsoilandwater-230815055203-bd369fc6-thumbnail.jpg?width=120&height=120&fit=bounds" /> In terms of successful and sustainable development of aquaculture two prospects are most important soil and water quality parameters management and its interaction process understanding. Selection of the site for pond construction soil plays a key role. Soil type, water holding capacity, organic matter, available nutrients and chemical composition of soil these parameters are optimum level is required for aquaculture suitable site. After water filling of the pond water parameters like pH, dissolved oxygen, total alkalinity, total hardness and total ammoniacal nitrogen interact with soil composition. That things are also dependent on climatic conditions and weather patterns.

Soil and water interaction__Physical and Chemical Properties of Soil and Water.pptx from Rajesh Chudasama

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0 Asian Seabass (Lates calcarifer) Culture.pptx /slideshow/asian-seabass-lates-calcarifer-culturepptx/259886498 asianseabasslatescalcariferculture-230815054427-97f58998
Aquaculture is the most reliable sector to the providing world nutrias food. It is all depended on the cultivable species. Asian seabass is one of the candidate species for aquaculture because of the wide range of water quality tolerance, growth performance, and consumer preference. The Indian and Western Pacific Oceans are where Asian seabass is found in its natural habitat. It can be cultured in the earthen pond, floating or stationer cages, and recirculating system. Seed resources are available in rivers and lakes of fresh water, but aquaculture is the depending on the hatchery that produces seed because of the superior growth production. In the nursery phase, cannibalism is predominant in Asian seabass cultivation, which will improve via the grading of a shooter. Feeding is one of the important management for good growth performance and reducing cannibalism to give the optimum feed requirements. The growth rate of the Asian seabass is 400-600 g in 4 to 6 months. Asian seabass farmers are suffering from some infectious and non-infection diseases, it will improve via the good management practices of the culture promises. In this review paper, some key points of Asian seabass farming are covered for better understanding.]]>
Aquaculture is the most reliable sector to the providing world nutrias food. It is all depended on the cultivable species. Asian seabass is one of the candidate species for aquaculture because of the wide range of water quality tolerance, growth performance, and consumer preference. The Indian and Western Pacific Oceans are where Asian seabass is found in its natural habitat. It can be cultured in the earthen pond, floating or stationer cages, and recirculating system. Seed resources are available in rivers and lakes of fresh water, but aquaculture is the depending on the hatchery that produces seed because of the superior growth production. In the nursery phase, cannibalism is predominant in Asian seabass cultivation, which will improve via the grading of a shooter. Feeding is one of the important management for good growth performance and reducing cannibalism to give the optimum feed requirements. The growth rate of the Asian seabass is 400-600 g in 4 to 6 months. Asian seabass farmers are suffering from some infectious and non-infection diseases, it will improve via the good management practices of the culture promises. In this review paper, some key points of Asian seabass farming are covered for better understanding.]]> Tue, 15 Aug 2023 05:44:27 GMT /slideshow/asian-seabass-lates-calcarifer-culturepptx/259886498 Rajesh-007@slideshare.net(Rajesh-007) Asian Seabass (Lates calcarifer) Culture.pptx Rajesh-007 Aquaculture is the most reliable sector to the providing world nutrias food. It is all depended on the cultivable species. Asian seabass is one of the candidate species for aquaculture because of the wide range of water quality tolerance, growth performance, and consumer preference. The Indian and Western Pacific Oceans are where Asian seabass is found in its natural habitat. It can be cultured in the earthen pond, floating or stationer cages, and recirculating system. Seed resources are available in rivers and lakes of fresh water, but aquaculture is the depending on the hatchery that produces seed because of the superior growth production. In the nursery phase, cannibalism is predominant in Asian seabass cultivation, which will improve via the grading of a shooter. Feeding is one of the important management for good growth performance and reducing cannibalism to give the optimum feed requirements. The growth rate of the Asian seabass is 400-600 g in 4 to 6 months. Asian seabass farmers are suffering from some infectious and non-infection diseases, it will improve via the good management practices of the culture promises. In this review paper, some key points of Asian seabass farming are covered for better understanding. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/asianseabasslatescalcariferculture-230815054427-97f58998-thumbnail.jpg?width=120&height=120&fit=bounds" /> Aquaculture is the most reliable sector to the providing world nutrias food. It is all depended on the cultivable species. Asian seabass is one of the candidate species for aquaculture because of the wide range of water quality tolerance, growth performance, and consumer preference. The Indian and Western Pacific Oceans are where Asian seabass is found in its natural habitat. It can be cultured in the earthen pond, floating or stationer cages, and recirculating system. Seed resources are available in rivers and lakes of fresh water, but aquaculture is the depending on the hatchery that produces seed because of the superior growth production. In the nursery phase, cannibalism is predominant in Asian seabass cultivation, which will improve via the grading of a shooter. Feeding is one of the important management for good growth performance and reducing cannibalism to give the optimum feed requirements. The growth rate of the Asian seabass is 400-600 g in 4 to 6 months. Asian seabass farmers are suffering from some infectious and non-infection diseases, it will improve via the good management practices of the culture promises. In this review paper, some key points of Asian seabass farming are covered for better understanding.

Asian Seabass (Lates calcarifer) Culture.pptx from Rajesh Chudasama

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0 Chlormphenicol.pptx /slideshow/chlormphenicolpptx/251432102 chlormphenicol-220326073101
Chlormphenicol]]>
Chlormphenicol]]> Sat, 26 Mar 2022 07:31:01 GMT /slideshow/chlormphenicolpptx/251432102 Rajesh-007@slideshare.net(Rajesh-007) Chlormphenicol.pptx Rajesh-007 Chlormphenicol <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/chlormphenicol-220326073101-thumbnail.jpg?width=120&height=120&fit=bounds" /> Chlormphenicol

Chlormphenicol.pptx from Rajesh Chudasama

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0 Battered and Breaded Seafood Products_Crispy Butterfly Shrimp (Cocktail)_ Masala Fried Pomfret_ Deep Fried Lobster.pptx /Rajesh-007/battered-and-breaded-seafood-productscrispy-butterfly-shrimp-cocktail-masala-fried-pomfret-deep-fried-lobsterpptx batteredandbreadedseafoodproductscrispybutterflyshrimpcocktailmasalafriedpomfretdeepfriedlobster-220326072239
Battered and Breaded Seafood Products_Crispy Butterfly Shrimp (Cocktail)_ Masala Fried Pomfret_ Deep Fried Lobster]]>
Battered and Breaded Seafood Products_Crispy Butterfly Shrimp (Cocktail)_ Masala Fried Pomfret_ Deep Fried Lobster]]> Sat, 26 Mar 2022 07:22:38 GMT /Rajesh-007/battered-and-breaded-seafood-productscrispy-butterfly-shrimp-cocktail-masala-fried-pomfret-deep-fried-lobsterpptx Rajesh-007@slideshare.net(Rajesh-007) Battered and Breaded Seafood Products_Crispy Butterfly Shrimp (Cocktail)_ Masala Fried Pomfret_ Deep Fried Lobster.pptx Rajesh-007 Battered and Breaded Seafood Products_Crispy Butterfly Shrimp (Cocktail)_ Masala Fried Pomfret_ Deep Fried Lobster <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/batteredandbreadedseafoodproductscrispybutterflyshrimpcocktailmasalafriedpomfretdeepfriedlobster-220326072239-thumbnail.jpg?width=120&height=120&fit=bounds" /> Battered and Breaded Seafood Products_Crispy Butterfly Shrimp (Cocktail)_ Masala Fried Pomfret_ Deep Fried Lobster

Battered and Breaded Seafood Products_Crispy Butterfly Shrimp (Cocktail)_ Masala Fried Pomfret_ Deep Fried Lobster.pptx from Rajesh Chudasama

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0 Ukai Reservoir.pptx /slideshow/ukai-reservoirpptx/251432034 ukaireservoir-220326072219
Ukai Reservoir]]>
Ukai Reservoir]]> Sat, 26 Mar 2022 07:22:19 GMT /slideshow/ukai-reservoirpptx/251432034 Rajesh-007@slideshare.net(Rajesh-007) Ukai Reservoir.pptx Rajesh-007 Ukai Reservoir <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/ukaireservoir-220326072219-thumbnail.jpg?width=120&height=120&fit=bounds" /> Ukai Reservoir

Ukai Reservoir.pptx from Rajesh Chudasama

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0 Factors Modifying Drug Action_Adverse Drug Effects_Drug Interactions and Bioassay of Drugs.pptx /slideshow/factors-modifying-drug-actionadverse-drug-effectsdrug-interactions-and-bioassay-of-drugspptx/251432031 factorsmodifyingdrugactionadversedrugeffectsdruginteractionsandbioassayofdrugs-220326072200
Factors Modifying Drug Action_Adverse Drug Effects_Drug Interactions and Bioassay of Drugs]]>
Factors Modifying Drug Action_Adverse Drug Effects_Drug Interactions and Bioassay of Drugs]]> Sat, 26 Mar 2022 07:21:59 GMT /slideshow/factors-modifying-drug-actionadverse-drug-effectsdrug-interactions-and-bioassay-of-drugspptx/251432031 Rajesh-007@slideshare.net(Rajesh-007) Factors Modifying Drug Action_Adverse Drug Effects_Drug Interactions and Bioassay of Drugs.pptx Rajesh-007 Factors Modifying Drug Action_Adverse Drug Effects_Drug Interactions and Bioassay of Drugs <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/factorsmodifyingdrugactionadversedrugeffectsdruginteractionsandbioassayofdrugs-220326072200-thumbnail.jpg?width=120&height=120&fit=bounds" /> Factors Modifying Drug Action_Adverse Drug Effects_Drug Interactions and Bioassay of Drugs

Factors Modifying Drug Action_Adverse Drug Effects_Drug Interactions and Bioassay of Drugs.pptx from Rajesh Chudasama

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0 Marine Fish Production of Gujarat 2017.pptx /Rajesh-007/marine-fish-production-of-gujarat-2017pptx marinefishproductionofgujarat2017-220326072154
Marine Fish Production of Gujarat 2017]]>
Marine Fish Production of Gujarat 2017]]> Sat, 26 Mar 2022 07:21:54 GMT /Rajesh-007/marine-fish-production-of-gujarat-2017pptx Rajesh-007@slideshare.net(Rajesh-007) Marine Fish Production of Gujarat 2017.pptx Rajesh-007 Marine Fish Production of Gujarat 2017 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/marinefishproductionofgujarat2017-220326072154-thumbnail.jpg?width=120&height=120&fit=bounds" /> Marine Fish Production of Gujarat 2017

Marine Fish Production of Gujarat 2017.pptx from Rajesh Chudasama

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0 Present Scenario and Problems of Aquaculture in India.pptx /slideshow/present-scenario-and-problems-of-aquaculture-in-indiapptx/251432028 presentscenarioandproblemsofaquacultureinindia-220326072154
Present Scenario and Problems of Aquaculture in India]]>
Present Scenario and Problems of Aquaculture in India]]> Sat, 26 Mar 2022 07:21:53 GMT /slideshow/present-scenario-and-problems-of-aquaculture-in-indiapptx/251432028 Rajesh-007@slideshare.net(Rajesh-007) Present Scenario and Problems of Aquaculture in India.pptx Rajesh-007 Present Scenario and Problems of Aquaculture in India <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/presentscenarioandproblemsofaquacultureinindia-220326072154-thumbnail.jpg?width=120&height=120&fit=bounds" /> Present Scenario and Problems of Aquaculture in India

Present Scenario and Problems of Aquaculture in India.pptx from Rajesh Chudasama

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0 Killer Whale.pptx /slideshow/killer-whalepptx/251432027 killerwhale-220326072153
Killer Whale]]>
Killer Whale]]> Sat, 26 Mar 2022 07:21:53 GMT /slideshow/killer-whalepptx/251432027 Rajesh-007@slideshare.net(Rajesh-007) Killer Whale.pptx Rajesh-007 Killer Whale <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/killerwhale-220326072153-thumbnail.jpg?width=120&height=120&fit=bounds" /> Killer Whale

Killer Whale.pptx from Rajesh Chudasama

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0 Pearl Oyster Hatchery.pptx /slideshow/pearl-oyster-hatcherypptx/251432026 pearloysterhatchery-220326072153
Pearl Oyster Hatchery]]>
Pearl Oyster Hatchery]]> Sat, 26 Mar 2022 07:21:52 GMT /slideshow/pearl-oyster-hatcherypptx/251432026 Rajesh-007@slideshare.net(Rajesh-007) Pearl Oyster Hatchery.pptx Rajesh-007 Pearl Oyster Hatchery <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/pearloysterhatchery-220326072153-thumbnail.jpg?width=120&height=120&fit=bounds" /> Pearl Oyster Hatchery

Pearl Oyster Hatchery.pptx from Rajesh Chudasama

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0 Indicators of Dynamics In Fishery Resource.pptx /slideshow/indicators-of-dynamics-in-fishery-resourcepptx/251432025 indicatorsofdynamicsinfisheryresource-220326072149
Indicators of Dynamics In Fishery Resource]]>
Indicators of Dynamics In Fishery Resource]]> Sat, 26 Mar 2022 07:21:49 GMT /slideshow/indicators-of-dynamics-in-fishery-resourcepptx/251432025 Rajesh-007@slideshare.net(Rajesh-007) Indicators of Dynamics In Fishery Resource.pptx Rajesh-007 Indicators of Dynamics In Fishery Resource <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/indicatorsofdynamicsinfisheryresource-220326072149-thumbnail.jpg?width=120&height=120&fit=bounds" /> Indicators of Dynamics In Fishery Resource

Indicators of Dynamics In Fishery Resource.pptx from Rajesh Chudasama

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0 Mechanism of Microbial Spoilage.pptx /slideshow/mechanism-of-microbial-spoilagepptx/251432024 mechanismofmicrobialspoilage-220326072149
Mechanism of Microbial Spoilage]]>
Mechanism of Microbial Spoilage]]> Sat, 26 Mar 2022 07:21:49 GMT /slideshow/mechanism-of-microbial-spoilagepptx/251432024 Rajesh-007@slideshare.net(Rajesh-007) Mechanism of Microbial Spoilage.pptx Rajesh-007 Mechanism of Microbial Spoilage <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/mechanismofmicrobialspoilage-220326072149-thumbnail.jpg?width=120&height=120&fit=bounds" /> Mechanism of Microbial Spoilage

Mechanism of Microbial Spoilage.pptx from Rajesh Chudasama

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0 https://cdn.slidesharecdn.com/profile-photo-Rajesh-007-48x48.jpg?cb=1724335858 +91 8140294870 https://cdn.slidesharecdn.com/ss_thumbnails/senseorgansandtheirfunctions-240731080559-9b011705-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/sense-organs-and-their-functions-in-fish/270635939 Sense organs and their... https://cdn.slidesharecdn.com/ss_thumbnails/biosensorsinaquaticenvironmenttoxicityassessmentecolabellingandtraceability-240731080512-5437ee44-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/biosensors-in-aquatic-environment-toxicity-assessment-ecolabelling-and-traceability-pptx/270635910 Biosensors in Aquatic ... https://cdn.slidesharecdn.com/ss_thumbnails/aquacultureandecosystemrelationship-240731080314-31e88193-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/aquaculture-and-ecosystem-relationship-pptx/270635873 Aquaculture and Ecosys...