Nitrogen and phosphorous cycle

ASSIGNMENT TOPIC:NITROGEN AND PHOSPHOROUS CYCLE Name H afiz M Waseem ROLL NO. Mcf-1901171 Semester 2 nd (E) Department Zoology Subject Ecology Submitted to Dr .Nazish mazhar Ali Submission date 31-04-2020

CONTENTS Nitrogen cycle History Define Steps Biological nitrogen fixation Non biological nitrogen fixation Nitrogenase complex Nodulin aerobic nitrogen fixation Anearobic nitrogen fixation Importance Phosphores cycle History Function Biological function Importance Uses Empect of human activity Cycle Eutrafication Human effect

Discovery of nitrogen cycle Wilfrath and Hellreigal first discovered the fact that legumes fix the atmospheric nitrogen in the soil . The fixed N2 is directly consumed by cereals during crop-rotation . Beijerinck in 1922 first isolated the bacteria from the root nodules of leguminous plants and named it Rhizobium leguminosarum. Plants need atmospheric nitronen

Discovery of nitrogen cycle Later a large number of organisms were reported for their N2-fixing capacity . The research workers of the Central Research Laboratory in the USA first isolated an enzyme nitrogenase from the bacteria Closteridium pasieurianum in the year 1960 . Later , in 1966 Dilworth and Schollhorn discovered the activities of nitrogenase in N2 fixation.

Introduction Nitrogen is abundantly present (78%) in the atmosphere. But green plants can not utilize the atmospheric N2 directly. Plants can take up N2 only from the soil . N2 present in the soil can be ultimately tracked back to the atmosphere. N2 is very important for plants, as it is a constituent of proteins, nucleic acids and a variety of compounds . Mostly plants obtain N2 from the soil as nitrates and ammonium salts . As plants continuously absorb nitrate and ammonium salts, the soil gets depleted of fixed nitrogen.

introduction Besides this the leaching effect of rain and denitrifying action of some bacteria lower the nitrogen content of the soil . This loss is compensated by the processes of lightning and nitrogen fixation N2 is supplied in the form of fertilizers to agricultural crops . The crop rotation with cereals and legumes has been practiced for a long time to increase the N2 content of the soil . This is done because legumes fix the atmospheric N2 in the soil. Plants not break triple bond between2 nitrogen Bacteria breake 3 bont by chemical

Define the process by which nitrogen is converted between its various chemical forms. This transformation can be carried out through both biological and physical processes. The conversion of molecular N2 of the atmosphere is accomplished by 2 methods 1 . Lightning or Atmospheric N2-fixation (or ) Non-biological N2 fixation 2. Biological Nitrogen Fixation

Forms of Nitrogen : a) organic nitrogen as ammonium (NH4+), nitrite (NO2-) , nitrate (NO3-), nitrous oxide (N2O) , nitric oxide (NO) or b) inorganic nitrogen as nitrogen gas (N2). phytoplankton Nitrogen cycle in water

Steps of nitrogen fixation Nitrogen cycle consists of the following steps 1. Nitrogen Fixation 2. Nitrogen assimilation 3. Ammonification 4. Nitrification and 5. Denitrification 6. Sedimentation

NITROGEN CYCLE IN WATER

Nitrogen fixation The conversion of free nitrogen of atmosphere into the biologically acceptable form or nitrogenous compounds. There are following ways to convert N2 into more chemically reactive forms: a) Biological Nitrogen fixation b) Physiocochemical nitrogen fixation c) Industrial nitrogen fixation

Nitrogen cycle in marine water

Physiocochemical or Non-biological nitrogen fixation : In this process, atmospheric nitrogen combines with oxygen (as ozone ) during lightning or electrical discharges in the clouds and produces different nitrogen oxides :

Non biological nitrogen fixation The nitrogen oxides get dissolved in rain water and on reaching earth surface they react with mineral compounds to form nitrates and other nitrogenous compounds :

Industrial nitrogen fixation Haber-Bosch process. Under great pressure, at a temperature of 600 temperature and with the use of an iron catalyst, hydrogen and atmospheric nitrogen can be combined to form ammonia (NH3) in the

Biological Nitrogen fixation some symbiotic bacteria , blue-green algae and some free-living bacteria are able to fix nitrogen as organic nitrogen. e.g symbiotic bacteria : Rhizobium symbiotic blue-green algae : species of Nostoc, Anabaena , etc free-living bacteria : Azotobacter, Clostridium, Derxia, Rhodospirillium, etc Symbiotic relationship

Biological Nitrogen fixation Nitrogen assimilation : In this process , Inorganic nitrogen in the form of nitrates , nitrites , and ammonia It is absorbed by the green plants via their roots and then it is converted into nitrogenous organic compounds. Nitrates are first converted into ammonia which combines with organic acids to form aminoacids . Aminoacids are used in the systhesis of proteins, enzymes, chlorophylls, nucleic acids, etc.

Biological Nitrogen fixation Ammonification : It is the process of releasing ammonia by certain microorganisms utilizing organic compounds derived from the dead organic remains of plants and animals and excreata of animals . The microorganisms especially involved are actinomycetes, bacilli ( Bacillus ramosus , B. vulgaris, B. mesenterilus )

Nitrification : Nitrification is a process of enzymatic oxidation of ammonia to nitrate by certain microorganisms in soil and ocean. Nitrosomonas ammonia to nitrites (NO2Nitrobacter oxidation of the nitrites into nitrates (NO3-).

6. Sedimentation : Sometimes , nitrates of soil are locked up in the rocks while they are washed down to the sea or leached deeply into the earth along with percolating water.This phenomena is known as sedimentation.

Nitrogenase complex Nitrogen is a highly un reactive molecule, which generally requires red-hot Mg for its reduction . But under physiological temperature, N2 is made into its reactive form by an enzyme catalyst, nitrogenase . The research workers of Central Research Laboratory first isolated the enzyme from the bacteria C. pasieurianum . They are the bacteria inhabiting the soil; they prefer anerobic environment for their proper growth and development.

Nitrogenase complex The researchers prepared the extract of these bacteria and searched for the N2 reducing property of the extract . The extract converts N2 into NH3 . The researchers also used radio active labelled N15 in its molecule.  Since then, Dilworth & Schollhorn et al (1966) have discovered that the enzyme nitrogenase reduces not only the N2 into NH3 but also acetylene into ethylene . The ethylene is measured by using gas chromatographic methods.

groups of inhibitors which inhibit the activity of Nase 1 . Classical inhibitors: include diff kinds of substrates which compete for the Nase against N2 Eg : Cyclopropane, HCN, Nitrogen azide, CO are competitive inhibitors 2 . Regulatory inhibitors: O2 and ATP N itself inhibits the Nase axn.

Rol of protein in nase activity Nase also requires some globular pro for its normal N reducing activity . 2 types of proteins participates in Nase activity namely legHbs & nodulins . 1. Leghaemoglobins: Heme protein- facilitates the free diffusion of O2 from the cytoplasm – it creates anaerobic environment for the axn of Nase . –1st isolated from the root nodules of legumes.

N odulin Another globular protein found in the root nodules of plants infected with Rhizobium . It is produced before the root nodule starts to fix the N from the atmosphere . Facilitates the proper utilization of NH3 released during N fixation.  Induces activation of a no of enzymes like uricase, glutamine synthetase, ribokinase

Aerobic nitrogen fixation The aerobic mos produce carbohydrates especially polysaccharides . PSs hinder the free diffusion of O2 into cells . PSs pretect the Nase against the oxidizing property of O2 . Thus the PS permit the Nase activity in aerobic micro organisms . The aerobic mos also have some adaptations for the protection of Nase against the damaging agencies in the cell.

Important adaptation Enzyme protein association Rapid respiratory metabolism Association with rapid oxygen consumers Association with acid lovers Time specific Nase activity Protection through colonization of bacteria Special separation of the N2 fixing system

Anaerobic nitronen fixation Anaerobic microbes actively reduce N into NH3 This NH3 is widely used in the metabolism of plants. In general, Nase is denatured when it is exposed to the O2 present in the atmosphere But the Nase of Closteridium shows high rate of tolerance of O2 . So the organisms like Closteridium fix N2 even under aerobic condition. Microbes ---fix N2 -----in association with the root

Symbiotic nitrogen fixation Microbes ---fix N2 -----in association with the roots of higher plants.( symbiotic N2 fixers). They fix the N2 either under aerobic / anerobic Eg: Rhizobium leguminosarum, R. japonicum, R.trifolli, etc , They invade the roots of leguminous plants and nonleguminous plants like Frankia, Casurina etc, for their growth & multiplication After the establishment of symbiotic association, they start to fix the atmosphere N in the soil.

Effect of field effect of nitrogen fixation 1. Soil moisture:- moderate( ↑ and ↓ moisture of the soil reduce the rate of N fixation in soil ) 2 . Effect of Drought:- the increased water deficiency causes decrease in the conc of legHb in the root nodules. (↓N fixation ) 3. Oxygen tension:- ↑ O2 tension in the soil causes ↓ in the rate of N fixation by microbes. 4. Effect of the pH of the soil solution : An ↑ in the soil salinity ↓ the rate of N fixation. 5. Light intensity:- In photosynthetic microbes, light induces a high rate of Photosynthesis resulting in high rate of N fixation. During N fixation, the microbes

Phosphorus history Phosphorus was discovered by Hennig Brand at 1669 in Germany. Origin of name: from the Greek word " phosphoros " meaning " bringer of light " Brand kept his process a secret, phosphorus was discovered independently in 1680 by an English chemist, Robert Boyle .

Phosphorus used White Phosphorus is used in some explosives, including rockets. This caused an uproar because of safety concerns. Red Phosphorus is used in match heads. You can see the texture of a match head next to the matches. Fertilizer; Phosphorus is known for being essential to DNA and to a lesser extent fertilizer

Importance of phasphoras It is an essential nutrient for plants and animals. It is a part of DNA-molecules and RNA-molecules, molecules that store energy (ATP and ADP) It is also a building block of certain parts of the human and animal body, such as the bones and teeth.

function of phosphoras Ecological Function Phosphorus is an essential nutrient for plants and animals. Limiting nutrient for aquatic organisms. Forms parts of important lifesustaining molecules that are very common in the biosphere.

Biological Function The primary biological importance of phosphates is as a component of nucleotides, which serve as energy storage within cells (ATP) or when linked together, form the nucleic acids DNA and RNA..

Phosphorous cycle The biogeochemical cycle that describes the movement of phosphorus through the lithosphere, hydrosphere, and biosphere. Unlike many other biogeochemical cycles, the atmosphere does not play a significant role in the movement of phosphorus, because phosphorus and phosphorus-based compounds are usually solids at the typical ranges of temperature and pressure found on Earth.

phosphorous cycle 1 . Reservoir – erosion transfers phosphorus to water and soil; sediments and rocks that accumulate on ocean floors return to the surface as a result of uplifting by geological processes 2 . Assimilation – plants absorb inorganic PO4 (phosphate) from soils; animals obtain organic phosphorus. 3 . Release – plants and animals release phosphorus when they decompose; animals excrete phosphorus in their waste products

Effect of human activity on phosphoras cycle We remove large amounts of phosphate from the earth to make fertilizer. We reduce phosphorous in tropical soils by clearing forests. We add excess phosphates to aquatic systems from runoff of animal wastes and fertilizers. (causes eutrophication)

Eutrafication

Phosphoras cycle When rocks high in phosphorus are exposed to water, the rock weathers out and goes into solution 2. Autotrophs absorb this phosphorus and use it in many different ways, 3. Then the plant is eaten by a heterotroph and obtains phosphorus from the plant 4. Then the phosphate leaves the body, and decomposers move the phosphorus into the soil or water then another plant will absorb this phosphorus.

Human Impacts on the Phosphorus Cycle Like nitrogen, increased use of fertilizers increases phosphorus runoff into our waterways and contributes to eutrophication. Humans have greatly influenced the P cycle by mining P, converting it to fertilizer, and by shipping fertilizer and products around the globe. Transporting P in food from farms to cities has made a major change in the global P cycle. Waters are enriched in P from farms run off, and from effluent that is inadequately treated before it is discharged to waters. Natural eutrophication is a process by which lakes gradually age and become more productive and may take thousands of years to progress. Cultural or anthropogenic eutrophication, however, is water pollution caused by excessive plant nutrients, which results in excessive growth in algae population

Nitrogen and phosphorous cycle

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