Deterministic & stochastic models in obtaining arsenic-Compounds-free produces in hydroponic mediums added with double sieving’s with small planktonic populations in nano-biotechnological application

Abstract

Here a simple and hi-tech applications is delivered with nano-biotechnological applications. Nano-biotechnology is the branch of biotechnology that deals with making structures that are ranged between 0- 500 nanometres of dimension. Molecular diameter of Arsenic and its compounds usually falls within this range and appropriately porous Phytoplankton cells can accumulate this enzymes inhibition bio-molecules. As we all know that Phytoplankton is the base of several aquatic food webs. Phytoplankton, also known as microalgae, are similar to terrestrial plants in that contain chlorophyll and require sunlight in order to live and grow can be provided to Hydroponic mediums as energy supplements. Mere sieving of arsenic compounds by phytoplankton and providing safety hydroponic foods. From both the biological and the toxicological points of view, arsenic compounds can be classified into three major groups: inorganic arsenic compounds; organic arsenic compounds; and arsine gas and all these can be sieved with plankton populations of small and medium in sizes. Nanotechnology and nano-biotechnology with Plankton population are used in recent days for mankind. Arsenic or its compounds can be termed as nano-particles having environmental hazards to all biological cells, tissue, organs. As per molecular dimensions arsenic and arsenic compounds can be sieved by certain plankton populations. Small algae and medium algae can sieve arsenic or its compounds through their appropriate porous cells and accumulate within and can make the aquatic medium free from arsenic and which can be used for hydroponic culture medium and can produce Arsenic free fruit and vegetables.