�ݺ�ߣshows by User: koushalyaTN

�ݺ�ߣshows by User: koushalyaTN / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: koushalyaTN / Sat, 02 Jun 2018 18:16:32 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: koushalyaTN Aeroponics opportunities and threats /slideshow/aeroponics-opportunities-and-threats/100151384 aeroponicsopportunitiesandthreats-180602181632
Aeroponics is the process of growing plants in an air or mist environment without the use of soil or an aggregate medium (known as geoponics). The word "aeroponic" is derived from the Greek meanings of aer (air) and ponos (labour). Aeroponic culture differs from both conventional hydroponics, aquaponics, and in-vitro (plant tissue culture) growing. Unlike hydroponics, which uses a liquid nutrient solution as a growing medium and essential minerals to sustain plant growth; or aquaponics which uses water and fish waste, aeroponics is conducted without a growing medium. It is sometimes considered a type of hydroponics, since water is used in aeroponics to transmit nutrients. TERMINOLOGY  Aeroponic growing refers to plants grown in an air culture that can develop and grow in a normal and natural manner.  Aeroponic growth refers to growth achieved in an air culture.  Aeroponic system refers to hardware and system components assembled to sustain plants in an air culture.  Aeroponic greenhouse refers to a climate controlled glass or plastic structure with equipment to grow plants in air/mistenvironment.  Aeroponic conditions refers to air culture environmental parameters for sustaining plant growth for a plant species.  Aeroponic roots refers to a root system grown in an air culture. ]]>
Aeroponics is the process of growing plants in an air or mist environment without the use of soil or an aggregate medium (known as geoponics). The word "aeroponic" is derived from the Greek meanings of aer (air) and ponos (labour). Aeroponic culture differs from both conventional hydroponics, aquaponics, and in-vitro (plant tissue culture) growing. Unlike hydroponics, which uses a liquid nutrient solution as a growing medium and essential minerals to sustain plant growth; or aquaponics which uses water and fish waste, aeroponics is conducted without a growing medium. It is sometimes considered a type of hydroponics, since water is used in aeroponics to transmit nutrients. TERMINOLOGY  Aeroponic growing refers to plants grown in an air culture that can develop and grow in a normal and natural manner.  Aeroponic growth refers to growth achieved in an air culture.  Aeroponic system refers to hardware and system components assembled to sustain plants in an air culture.  Aeroponic greenhouse refers to a climate controlled glass or plastic structure with equipment to grow plants in air/mistenvironment.  Aeroponic conditions refers to air culture environmental parameters for sustaining plant growth for a plant species.  Aeroponic roots refers to a root system grown in an air culture. ]]> Sat, 02 Jun 2018 18:16:32 GMT /slideshow/aeroponics-opportunities-and-threats/100151384 koushalyaTN@slideshare.net(koushalyaTN) Aeroponics opportunities and threats koushalyaTN Aeroponics is the process of growing plants in an air or mist environment without the use of soil or an aggregate medium (known as geoponics). The word "aeroponic" is derived from the Greek meanings of aer (air) and ponos (labour). Aeroponic culture differs from both conventional hydroponics, aquaponics, and in-vitro (plant tissue culture) growing. Unlike hydroponics, which uses a liquid nutrient solution as a growing medium and essential minerals to sustain plant growth; or aquaponics which uses water and fish waste, aeroponics is conducted without a growing medium. It is sometimes considered a type of hydroponics, since water is used in aeroponics to transmit nutrients. TERMINOLOGY  Aeroponic growing refers to plants grown in an air culture that can develop and grow in a normal and natural manner.  Aeroponic growth refers to growth achieved in an air culture.  Aeroponic system refers to hardware and system components assembled to sustain plants in an air culture.  Aeroponic greenhouse refers to a climate controlled glass or plastic structure with equipment to grow plants in air/mistenvironment.  Aeroponic conditions refers to air culture environmental parameters for sustaining plant growth for a plant species.  Aeroponic roots refers to a root system grown in an air culture. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/aeroponicsopportunitiesandthreats-180602181632-thumbnail.jpg?width=120&height=120&fit=bounds" /> Aeroponics is the process of growing plants in an air or mist environment without the use of soil or an aggregate medium (known as geoponics). The word "aeroponic" is derived from the Greek meanings of aer (air) and ponos (labour). Aeroponic culture differs from both conventional hydroponics, aquaponics, and in-vitro (plant tissue culture) growing. Unlike hydroponics, which uses a liquid nutrient solution as a growing medium and essential minerals to sustain plant growth; or aquaponics which uses water and fish waste, aeroponics is conducted without a growing medium. It is sometimes considered a type of hydroponics, since water is used in aeroponics to transmit nutrients. TERMINOLOGY  Aeroponic growing refers to plants grown in an air culture that can develop and grow in a normal and natural manner.  Aeroponic growth refers to growth achieved in an air culture.  Aeroponic system refers to hardware and system components assembled to sustain plants in an air culture.  Aeroponic greenhouse refers to a climate controlled glass or plastic structure with equipment to grow plants in air/mistenvironment.  Aeroponic conditions refers to air culture environmental parameters for sustaining plant growth for a plant species.  Aeroponic roots refers to a root system grown in an air culture.

Aeroponics opportunities and threats from koushalya T.N

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0 Hybrid seed production in redgram /slideshow/hybrid-seed-production-in-redgram/91318482 hybridseedproductioninredgram-180320161330
(Cajanus cajan) (2n = 22) Self pollination is the rule in Red gram and natural crossing extents up to 65 per cent. often cross pollinated crop. ]]>
(Cajanus cajan) (2n = 22) Self pollination is the rule in Red gram and natural crossing extents up to 65 per cent. often cross pollinated crop. ]]> Tue, 20 Mar 2018 16:13:30 GMT /slideshow/hybrid-seed-production-in-redgram/91318482 koushalyaTN@slideshare.net(koushalyaTN) Hybrid seed production in redgram koushalyaTN (Cajanus cajan) (2n = 22) � Self pollination is the rule in Red gram and natural crossing extents up to 65 per cent. often cross pollinated crop. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/hybridseedproductioninredgram-180320161330-thumbnail.jpg?width=120&height=120&fit=bounds" /> (Cajanus cajan) (2n = 22) � Self pollination is the rule in Red gram and natural crossing extents up to 65 per cent. often cross pollinated crop.

Hybrid seed production in redgram from koushalya T.N

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0 Field trips /slideshow/field-trips-91317800/91317800 fieldtrips-180320160629
Field trip is a method in which a group of interested farmers accompanied & guided by an extension worker , goes on tour to see & gain first hand knowledge of improved practices in thier natural settings ]]>
Field trip is a method in which a group of interested farmers accompanied & guided by an extension worker , goes on tour to see & gain first hand knowledge of improved practices in thier natural settings ]]> Tue, 20 Mar 2018 16:06:29 GMT /slideshow/field-trips-91317800/91317800 koushalyaTN@slideshare.net(koushalyaTN) Field trips koushalyaTN Field trip is a method in which a group of interested farmers accompanied & guided by an extension worker , goes on tour to see & gain first hand knowledge of improved practices in thier natural settings <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/fieldtrips-180320160629-thumbnail.jpg?width=120&height=120&fit=bounds" /> Field trip is a method in which a group of interested farmers accompanied & guided by an extension worker , goes on tour to see & gain first hand knowledge of improved practices in thier natural settings

Field trips from koushalya T.N

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0 Potassium solublising micro organisms /koushalyaTN/potassium-solublising-micro-organisms potassiumsolublisingmicroorganisms-180317170729
Potassium Potassium is the most abundant macronutrient in soils. It is also the seventh most common element in the lithosphere which contains on average 2.6% potassium. The total potassium content of Indian soils varies from 0.5 to 3.0%. ]]>
Potassium Potassium is the most abundant macronutrient in soils. It is also the seventh most common element in the lithosphere which contains on average 2.6% potassium. The total potassium content of Indian soils varies from 0.5 to 3.0%. ]]> Sat, 17 Mar 2018 17:07:29 GMT /koushalyaTN/potassium-solublising-micro-organisms koushalyaTN@slideshare.net(koushalyaTN) Potassium solublising micro organisms koushalyaTN Potassium Potassium is the most abundant macronutrient in soils. It is also the seventh most common element in the lithosphere which contains on average 2.6% potassium. The total potassium content of Indian soils varies from 0.5 to 3.0%. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/potassiumsolublisingmicroorganisms-180317170729-thumbnail.jpg?width=120&height=120&fit=bounds" /> Potassium Potassium is the most abundant macronutrient in soils. It is also the seventh most common element in the lithosphere which contains on average 2.6% potassium. The total potassium content of Indian soils varies from 0.5 to 3.0%.

Potassium solublising micro organisms from koushalya T.N

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0 Role of traditional organic liquid formulations in organic farming /koushalyaTN/role-of-traditional-organic-liquid-formulations-in-organic-farming roleoftraditionalorganicliquidformulationsinorganicfarming-180317170006
Beejamrutha Jeevamruth Vermi Wash Panchagavya Cow urine ]]>
Beejamrutha Jeevamruth Vermi Wash Panchagavya Cow urine ]]> Sat, 17 Mar 2018 17:00:06 GMT /koushalyaTN/role-of-traditional-organic-liquid-formulations-in-organic-farming koushalyaTN@slideshare.net(koushalyaTN) Role of traditional organic liquid formulations in organic farming koushalyaTN Beejamrutha Jeevamruth Vermi Wash Panchagavya Cow urine <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/roleoftraditionalorganicliquidformulationsinorganicfarming-180317170006-thumbnail.jpg?width=120&height=120&fit=bounds" /> Beejamrutha Jeevamruth Vermi Wash Panchagavya Cow urine

Role of traditional organic liquid formulations in organic farming from koushalya T.N

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0 Sustainability in cropping system /slideshow/sustainability-in-cropping-system/91032222 sustainabilityincroppingsystem-180317165857
Sustainable describes farming systems that are "capable of maintaining their productivity and usefulness to society indefinitely. Resource-conserving Socially supportive Commercially competitive Environmentally sound ]]>
Sustainable describes farming systems that are "capable of maintaining their productivity and usefulness to society indefinitely. Resource-conserving Socially supportive Commercially competitive Environmentally sound ]]> Sat, 17 Mar 2018 16:58:57 GMT /slideshow/sustainability-in-cropping-system/91032222 koushalyaTN@slideshare.net(koushalyaTN) Sustainability in cropping system koushalyaTN Sustainable describes farming systems that are "capable of maintaining their productivity and usefulness to society indefinitely. Resource-conserving Socially supportive Commercially competitive Environmentally sound <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/sustainabilityincroppingsystem-180317165857-thumbnail.jpg?width=120&height=120&fit=bounds" /> Sustainable describes farming systems that are "capable of maintaining their productivity and usefulness to society indefinitely. Resource-conserving Socially supportive Commercially competitive Environmentally sound

Sustainability in cropping system from koushalya T.N

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0 Sustainability in farming system /slideshow/sustainability-in-farming-system/91031905 sustainabilityinfarmingsystem-180317165222
Farming system is the scientific integration of different interdependent and interacting farm enterprises for the efficient use of land, labour and other resources of a farm family which provide year round income to the farmers. ]]>
Farming system is the scientific integration of different interdependent and interacting farm enterprises for the efficient use of land, labour and other resources of a farm family which provide year round income to the farmers. ]]> Sat, 17 Mar 2018 16:52:22 GMT /slideshow/sustainability-in-farming-system/91031905 koushalyaTN@slideshare.net(koushalyaTN) Sustainability in farming system koushalyaTN Farming system is the scientific integration of different interdependent and interacting farm enterprises for the efficient use of land, labour and other resources of a farm family which provide year round income to the farmers. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/sustainabilityinfarmingsystem-180317165222-thumbnail.jpg?width=120&height=120&fit=bounds" /> Farming system is the scientific integration of different interdependent and interacting farm enterprises for the efficient use of land, labour and other resources of a farm family which provide year round income to the farmers.

Sustainability in farming system from koushalya T.N

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0 Soil management strategies to enhance carbon sequestration potential of degraded lands /slideshow/soil-management-strategies-to-enhance-carbon-sequestration-potential-of-degraded-lands/87748377 seminarpptfinalkoushalyat-180210174624
Reclamation of degraded lands has huge potential for carbon (C) sequestration to counteract the climate change. It was estimated that about 1,964 Mha of land is degraded worldwide and in India 146.8 Mha of land is degraded ( Bai et al., 2008). The major land-degradation processes in the World and in Asia are water erosion, wind erosion, salinity, alkalinity, nutrient depletion and metal pollution. Enrichment of soil organic carbon (SOC) stocks through sequestration of atmospheric CO2 in agricultural soils and degraded lands is important because of its impacts on improving soil quality and agronomic production, and also for adaptation to mitigation of climate change. Various management strategies like conservation agriculture, integrated nutrient management, afforestation, alternate land use, plantations and amendments and use of biochar hold promise for long-term C sequestration. It can be concluded that land degradation is a serious problem in India which need to be tackled because shrinking of land resource base will lead to a substantial decline in food grain production which in turn would hamper the economic growth rate and there would also be unprecedented increase in mortality rate owing to hunger and malnutrition.]]>
Reclamation of degraded lands has huge potential for carbon (C) sequestration to counteract the climate change. It was estimated that about 1,964 Mha of land is degraded worldwide and in India 146.8 Mha of land is degraded ( Bai et al., 2008). The major land-degradation processes in the World and in Asia are water erosion, wind erosion, salinity, alkalinity, nutrient depletion and metal pollution. Enrichment of soil organic carbon (SOC) stocks through sequestration of atmospheric CO2 in agricultural soils and degraded lands is important because of its impacts on improving soil quality and agronomic production, and also for adaptation to mitigation of climate change. Various management strategies like conservation agriculture, integrated nutrient management, afforestation, alternate land use, plantations and amendments and use of biochar hold promise for long-term C sequestration. It can be concluded that land degradation is a serious problem in India which need to be tackled because shrinking of land resource base will lead to a substantial decline in food grain production which in turn would hamper the economic growth rate and there would also be unprecedented increase in mortality rate owing to hunger and malnutrition.]]> Sat, 10 Feb 2018 17:46:24 GMT /slideshow/soil-management-strategies-to-enhance-carbon-sequestration-potential-of-degraded-lands/87748377 koushalyaTN@slideshare.net(koushalyaTN) Soil management strategies to enhance carbon sequestration potential of degraded lands koushalyaTN Reclamation of degraded lands has huge potential for carbon (C) sequestration to counteract the climate change. It was estimated that about 1,964 Mha of land is degraded worldwide and in India 146.8 Mha of land is degraded ( Bai et al., 2008). The major land-degradation processes in the World and in Asia are water erosion, wind erosion, salinity, alkalinity, nutrient depletion and metal pollution. Enrichment of soil organic carbon (SOC) stocks through sequestration of atmospheric CO2 in agricultural soils and degraded lands is important because of its impacts on improving soil quality and agronomic production, and also for adaptation to mitigation of climate change. Various management strategies like conservation agriculture, integrated nutrient management, afforestation, alternate land use, plantations and amendments and use of biochar hold promise for long-term C sequestration. It can be concluded that land degradation is a serious problem in India which need to be tackled because shrinking of land resource base will lead to a substantial decline in food grain production which in turn would hamper the economic growth rate and there would also be unprecedented increase in mortality rate owing to hunger and malnutrition. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/seminarpptfinalkoushalyat-180210174624-thumbnail.jpg?width=120&height=120&fit=bounds" /> Reclamation of degraded lands has huge potential for carbon (C) sequestration to counteract the climate change. It was estimated that about 1,964 Mha of land is degraded worldwide and in India 146.8 Mha of land is degraded ( Bai et al., 2008). The major land-degradation processes in the World and in Asia are water erosion, wind erosion, salinity, alkalinity, nutrient depletion and metal pollution. Enrichment of soil organic carbon (SOC) stocks through sequestration of atmospheric CO2 in agricultural soils and degraded lands is important because of its impacts on improving soil quality and agronomic production, and also for adaptation to mitigation of climate change. Various management strategies like conservation agriculture, integrated nutrient management, afforestation, alternate land use, plantations and amendments and use of biochar hold promise for long-term C sequestration. It can be concluded that land degradation is a serious problem in India which need to be tackled because shrinking of land resource base will lead to a substantial decline in food grain production which in turn would hamper the economic growth rate and there would also be unprecedented increase in mortality rate owing to hunger and malnutrition.

Soil management strategies to enhance carbon sequestration potential of degraded lands from koushalya T.N

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0 https://public.slidesharecdn.com/v2/images/profile-picture.png https://cdn.slidesharecdn.com/ss_thumbnails/aeroponicsopportunitiesandthreats-180602181632-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/aeroponics-opportunities-and-threats/100151384 Aeroponics opportuniti... https://cdn.slidesharecdn.com/ss_thumbnails/hybridseedproductioninredgram-180320161330-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/hybrid-seed-production-in-redgram/91318482 Hybrid seed production... https://cdn.slidesharecdn.com/ss_thumbnails/fieldtrips-180320160629-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/field-trips-91317800/91317800 Field trips