{"id":3069,"date":"2020-09-07T00:43:08","date_gmt":"2020-09-06T19:13:08","guid":{"rendered":"https:\/\/babrone.avfu.ac.in\/blog\/?p=3069"},"modified":"2020-12-01T12:26:31","modified_gmt":"2020-12-01T06:56:31","slug":"hydroponics-green-fodder-production","status":"publish","type":"post","link":"https:\/\/babrone.avfu.ac.in\/blog\/?p=3069","title":{"rendered":"HYDROPONICS GREEN FODDER PRODUCTION"},"content":{"rendered":"

HYDROPONICS GREEN FODDER PRODUCTION<\/strong><\/span><\/p>\n

The term Hydroponics was derived from the Greek words \u201chydro\u201d meaning \u201cwater\u201d and \u201cponos\u201d meaning labour. It is a method of growing plants using mineral nutrient solutions, without soil. It is a science of growing plants in nutrient rich solutions instead of soil and can be efficiently used to take pressure off the land to grow green feed for the livestock. Plants require three things to flourish, water, nutrients and sunlight. Hydroponics is a straight forward way of providing all these nutrients without the need of soil under controlled environmental conditions to optimize the growth of plants. The technology has been tested on various crops as Maize, Sorghum, Barley, Oats etc. for producing high quality of nutritious green fodder for dairy animals. Beside this, hydroponics can be used for growing wheat grass, paddy saplings, etc. in seven days time for optimum growth. Fodder obtained from hydroponics consists of grass with grains, roots, stem and leaves compared to only stem and leaves parts in conventionally grown fodder.<\/span><\/p>\n

Importance of Green Fodder:<\/strong><\/span><\/p>\n

Green Fodders are Natural diet for animals. It improves fat percentage in milk. Green fodders are rich in beta carotene and help in synthesis of vitamin A, which has greater impact on reproduction. Green fodder is an essential component of the dairy ration; otherwise, the productive and the reproductive performances of dairy animals are adversely affected. Therefore, for a sustainable dairy farming, quality green fodder should be fed regularly to the dairy animals (Naik et al<\/em>., 2012). Green Fodder replaces 13-35% of the total input cost of the total cost (70 to 75%). Green fodder supply round the year is required for good dairy practices.<\/span><\/p>\n

Advantages of hydroponics culture<\/strong>:<\/span><\/p>\n

There are many advantages of growing plants under soil-less culture over soil-based culture (Savvas, 2002). These gardens produce the healthiest crops with high yields and are consistently reliable; gardening is clean and extremely easy, requiring very little effort (Silberbush and Ben-Asher, 2001). Here nutrients are fed directly to the roots; as a result plants grow faster with smaller roots. Plants may be grown closer and only 1\/5th of overall space and 1\/20th of total water is needed to grow plants under soil-less culture in comparison to soil-based culture (Silberbush and Ben-Asher, 2001). There is no chance of soil-borne insect pests, disease attack or weed infestation too. Overall, soil-less culture provides efficient nutrient regulation and higher density planting, leading to increased yield per acre along with better quality of the produce. It is also effective for the regions of the world having scarcity of arable or fertile land for agriculture (Sonneveld, 2000).<\/span><\/p>\n

When removed from soil, root tissue is often mechanically sheared causing loss or damage of tissue. This is particularly true for fine root structures such as lateral roots and root hairs. Hydroponic systems that do not utilize an inert particulate media allow a less invasive separation of root and shoot tissues. In soil systems, nutrient bioavailability changes throughout the soil matrix as nutrients bind to soil particles creating micro-environments within the soil. This heterogeneity could add an extra level of complexity in experiments needing a precise control on the external concentration of nutrients or other molecules. In contrast, the hydroponic solution is homogeneous and can be easily replaced throughout the course of the experiment (Nguyen et. al<\/em>., 2016).<\/span><\/p>\n

Nutrients are not wasted or leached away. Nutrients supplied to the plants can be controlled. Crop yields and plant growths are consistent. Hydroponics also conserves water leading to no crop rotation, thus more plants can be grown in a smaller area (Berndsen and Gardener, 2014).<\/span><\/p>\n

Limitations of soil-less culture:<\/strong><\/span><\/p>\n