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Freshwater ecosystem (2)

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Abhishek Kanwar
Abhishek Kanwar

Freshwater ecosystems include lakes, ponds, rivers, streams, springs, and wetlands. There are two main types - lentic ecosystems, which are standing bodies of water, and lotic ecosystems, which are running water. Lentic ecosystems can be further divided into zones based on depth and vegetation. Lotic ecosystems have rapid zones with strong currents and pool zones with slower currents. Wetlands are areas that are periodically saturated or flooded with shallow water and support unique plant and animal communities. Forested wetlands include swamps and floodplain forests while tidal freshwater marshes occur along estuaries. Freshwater ecosystems provide important resources but occupy a small area globally.

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A PRESENTATION ON FRESHWATER ECOSYSTEM Prepared by Abhishek- 2014bpln022 Prakash Nagesh- 2014bpln023 Gaurav kushwaha-2014bpln028 Pushpender Satyarthi-2014bpln030 Yash Songara- 2014bpln034 Peeysh Kumar Shishodia-2014bpln037
CONTENTS 1. What are fresh water ecosystems 2. Type of fresh water Habitats 3. Lentic Ecosystems 4. Lotic Ecosystems 5. Freshwater Wetlands 6. Forest Wetlands 7. Tidal Freshwater Marshes 8. Conclusion
What are the Freshwater Ecosystems  Freshwater ecosystems are a subset of Earth's aquatic ecosystems. They include lakes and ponds, rivers, streams and springs, and wetlands • Occupy relatively a small portion of the surface of earth compared with marine or terrestrial ecosystems. • They are most important as being used for the various purposes. • They are called bottleneck of hydrological cycle. • They provide a natural waste disposal system. pond lake
Freshwater ecosystem (2)
TYPES OF FRESHWATER HABITATS Lentic Standing Water or lentic( calm) ecosystems : lakes and ponds Lotic Running water or lotic (washed) ecosystems : springs, streams and rivers Wetlands Wetlands where water level fluctuates up and down, often seasonally as well as annually : marshes and swamps Ground water although a large freshwater habitat reservoir but it does contain life that’s why it is not considered as ecosystem
To study the environment of lentic ecosystems it is being divided into zones Lentic Ecosystems Contained rooted vegetation along the shore Open water dominated by plankton A deep water zone containing only heterotrophs Life forms in a ponds include plankton, nekton, benthos, neuston, periphyton (hydras)
Lentic Ecosystems
Lentic Ecosystems In temperate regions, lakes often become thermally stratified during summer and again in winter During spring and fall, the entire body of water approaches the same temperature, mixing occurs, occurs. Blooms of phytoplankton's often follow these turnovers, as nutrients from the bottom become available in the photic zone. Photic zone is the lighted portion of a lake inhabited by phytoplankton
Lentic Ecosystems Lakes are often classified as either oligotrophic or eutrophic on the basis of productivity Eutrophic lake has high nutrients contents the high contents of nutrients causes lake to go in process which known as eutrophication of lake.
Lentic Ecosystems Diagram showing eutrophication of lake
Lentic Ecosystems IMPOUNDEMENTS Humans have changed the landscape in regions that lack natural bodies of water In US almost every farm have now includes at least one farm pond, and large impoundments have been constructed partially on every river. The heat budget of impoundments may differ greatly from that of natural lakes, depending on the design of the dam. If water is released from the bottom- cold, nutrient-rich but oxygen poor water is exported downstream, whereas warm water is retained in the lakes. This impoundments becomes a heat trap and nutrient exporter, in contrast to natural lakes. This typre of discharge affects down stream conditions
Lotic Ecosystems Streams and Rivers Difference between running and standing water generally revolve around a triad of conditions 1. Current is much more of a major controlling and limiting factor in streams 2. Land-water interchange is relatively more extensive in streams, result in a more open ecosystems and a heterotrophic type of community metabolism when the size of stream is small 3. Oxygen tension is generally high and more uniform in streams, and there is little or no thermal or chemical stratification , except in large, slow-moving rivers
Lotic Ecosystems In a given stretch of stream, 2 zones are generally apparent A rapid zone has a current great enough to keep the bottom clear of silt or other loose material, thus providing a firm substrate. This zone is occupied by specialized organisms that become firmly attached or cling to the substrate. A pool zone has deeper water, where the velocity of current is reduced by, so that sand and silt settle , providing a soft bottom favorable for burrowing and swimming animals, rooted plants, and, in large pools, plankton. In fact, the communities of pools in large rivers resemble those of ponds River in their upper reaches are generally eroding; they cut into substrate, so a hard bottom predominates
Lotic Ecosystems In terms of the chemical composition of the water, lotic ecosystems can be divided in 2 types 1. Hard water, with 100 or more ppm dissolved inorganic solids 2. Soft water, with less than 25 ppm dissolved solids The water chemistry of carbonate rivers is controlled largely by rock weathering , whereas atmospheric precipitation is the dominant factor in Cl rivers. Humic or Black water streams, with high concentrations of dissolved organic material, represent still another class of streams that are found in warm lowlands. Springs holds a position of importance as study areas that is far out of proportion to their size and number .
Freshwater Wetlands Definition It is defined as an area covered by shallow freshwater for at least part of the annual cycle.: accordingly, wetland soils are saturated with water continually or part of the year . The key factor that determines the productivity and species composition of the wetland community is the hydro period River Wetlands Located in low lying depression(oxbows) and flood plains associated with rivers. The bottom land hardwood forests on the flood plains of large rivers are among the most productive of natural ecosystems Lacustrine Wetlands Associated with lakes, ponds or dammed river channels. They are periodically flooded When these deeper bodies of water overflow Palustrine Wetlands Include marshes, bogs, fens, wet prairies . Occur in depressions not directly connected with lakes or rivers . Fens are slightly acidic, bogs are very acidic as they contain peat
Wetland occupy only about 2 % of the surface of the earth. They are estimated to contain 10 to 14 % of the carbon. Wetland soil histosol may contain 20 % carbon by weight. Peats are even more carboniferous. Draining of wetland releases large quantities of CO2 . Freshwater Wetlands Bog In the last century public attitude towards wetland changed dramatically as ecological and economic studies revealed previously unrecognized values
Freshwater Wetlands Rice culture is one of the most productive and dependable of agricultural systems yet devised by humans it is a freshwater marsh ecosystem. The flooding, draining and careful rebuilding of the rice paddy each year of the rice plant. The flooding process is similar to the hyperiod ( duration, frequency and depth) of natural wetlands.
Forested Wetlands Swamp and floodplains occur in river bottoms, often intermixed with marshes especially where large rivers cross coastal plains. They are also found in large depressions, lime sinks and other low-lying areas that are flooded at least some of the time. As with marshes, hydrology plays a major role in determining species composition and productivity. Bald cypress The knees of bald cypress trees conduct air from atmosphere to roots when a swamp is flooded and the water logged sediments contain little or fee oxygen. The greatest productivity occurs where the soil surface is flooded in winter or spring and is relatively dry during most of the growing season Water Tupelo
A tidal marsh is a type of marsh that is found along coasts and estuaries of which the flooding characteristics are determined by the tidal movement of the adjacent estuary, sea or ocean. According to the salinity of the flooding water, freshwater, brackish and saline tidal marshes are distinguished. In low lying coastal plains, tides extend inland on large rivers. For example-meter amplitude tide occurs on the Potomac river beyond Washington DC and on the James River as far inland as Richmond, Virginia, creating a unique habitat of freshwater wetland. Fleshy, low –fiber vegetation is produced in fresh water tidal marshes summer, which then decomposes back to mud in winter, in contrast to salt marshes where the more fibrous marsh grass remain standing all year around Potomac river marshes Tidal Freshwater Marshes
1. Freshwater Ecosystems are very important part of our earth ecosystem as they provide the water for various purposes and use. 2. They also help the domesticated and Terrestrial ecosystem to survive and keep these kind of ecosystem alive in nature. 3. Ecosystem of Freshwater are very less on our earth 4. They just occupy 1 %total water present on earth which supports the more than 7 billion human population and thousand of species present on our earth. 5. So it is important to keep fresh water ecosystem safe from other system as it is a life for other ecosystem. Conclusion

More Related Content

Freshwater ecosystem (2)

  • 1. A PRESENTATION ON FRESHWATER ECOSYSTEM Prepared by Abhishek- 2014bpln022 Prakash Nagesh- 2014bpln023 Gaurav kushwaha-2014bpln028 Pushpender Satyarthi-2014bpln030 Yash Songara- 2014bpln034 Peeysh Kumar Shishodia-2014bpln037
  • 2. CONTENTS 1. What are fresh water ecosystems 2. Type of fresh water Habitats 3. Lentic Ecosystems 4. Lotic Ecosystems 5. Freshwater Wetlands 6. Forest Wetlands 7. Tidal Freshwater Marshes 8. Conclusion
  • 3. What are the Freshwater Ecosystems  Freshwater ecosystems are a subset of Earth's aquatic ecosystems. They include lakes and ponds, rivers, streams and springs, and wetlands • Occupy relatively a small portion of the surface of earth compared with marine or terrestrial ecosystems. • They are most important as being used for the various purposes. • They are called bottleneck of hydrological cycle. • They provide a natural waste disposal system. pond lake
  • 5. TYPES OF FRESHWATER HABITATS Lentic Standing Water or lentic( calm) ecosystems : lakes and ponds Lotic Running water or lotic (washed) ecosystems : springs, streams and rivers Wetlands Wetlands where water level fluctuates up and down, often seasonally as well as annually : marshes and swamps Ground water although a large freshwater habitat reservoir but it does contain life that’s why it is not considered as ecosystem
  • 6. To study the environment of lentic ecosystems it is being divided into zones Lentic Ecosystems Contained rooted vegetation along the shore Open water dominated by plankton A deep water zone containing only heterotrophs Life forms in a ponds include plankton, nekton, benthos, neuston, periphyton (hydras)
  • 8. Lentic Ecosystems In temperate regions, lakes often become thermally stratified during summer and again in winter During spring and fall, the entire body of water approaches the same temperature, mixing occurs, occurs. Blooms of phytoplankton's often follow these turnovers, as nutrients from the bottom become available in the photic zone. Photic zone is the lighted portion of a lake inhabited by phytoplankton
  • 9. Lentic Ecosystems Lakes are often classified as either oligotrophic or eutrophic on the basis of productivity Eutrophic lake has high nutrients contents the high contents of nutrients causes lake to go in process which known as eutrophication of lake.
  • 11. Lentic Ecosystems IMPOUNDEMENTS Humans have changed the landscape in regions that lack natural bodies of water In US almost every farm have now includes at least one farm pond, and large impoundments have been constructed partially on every river. The heat budget of impoundments may differ greatly from that of natural lakes, depending on the design of the dam. If water is released from the bottom- cold, nutrient-rich but oxygen poor water is exported downstream, whereas warm water is retained in the lakes. This impoundments becomes a heat trap and nutrient exporter, in contrast to natural lakes. This typre of discharge affects down stream conditions
  • 12. Lotic Ecosystems Streams and Rivers Difference between running and standing water generally revolve around a triad of conditions 1. Current is much more of a major controlling and limiting factor in streams 2. Land-water interchange is relatively more extensive in streams, result in a more open ecosystems and a heterotrophic type of community metabolism when the size of stream is small 3. Oxygen tension is generally high and more uniform in streams, and there is little or no thermal or chemical stratification , except in large, slow-moving rivers
  • 13. Lotic Ecosystems In a given stretch of stream, 2 zones are generally apparent A rapid zone has a current great enough to keep the bottom clear of silt or other loose material, thus providing a firm substrate. This zone is occupied by specialized organisms that become firmly attached or cling to the substrate. A pool zone has deeper water, where the velocity of current is reduced by, so that sand and silt settle , providing a soft bottom favorable for burrowing and swimming animals, rooted plants, and, in large pools, plankton. In fact, the communities of pools in large rivers resemble those of ponds River in their upper reaches are generally eroding; they cut into substrate, so a hard bottom predominates
  • 14. Lotic Ecosystems In terms of the chemical composition of the water, lotic ecosystems can be divided in 2 types 1. Hard water, with 100 or more ppm dissolved inorganic solids 2. Soft water, with less than 25 ppm dissolved solids The water chemistry of carbonate rivers is controlled largely by rock weathering , whereas atmospheric precipitation is the dominant factor in Cl rivers. Humic or Black water streams, with high concentrations of dissolved organic material, represent still another class of streams that are found in warm lowlands. Springs holds a position of importance as study areas that is far out of proportion to their size and number .
  • 15. Freshwater Wetlands Definition It is defined as an area covered by shallow freshwater for at least part of the annual cycle.: accordingly, wetland soils are saturated with water continually or part of the year . The key factor that determines the productivity and species composition of the wetland community is the hydro period River Wetlands Located in low lying depression(oxbows) and flood plains associated with rivers. The bottom land hardwood forests on the flood plains of large rivers are among the most productive of natural ecosystems Lacustrine Wetlands Associated with lakes, ponds or dammed river channels. They are periodically flooded When these deeper bodies of water overflow Palustrine Wetlands Include marshes, bogs, fens, wet prairies . Occur in depressions not directly connected with lakes or rivers . Fens are slightly acidic, bogs are very acidic as they contain peat
  • 16. Wetland occupy only about 2 % of the surface of the earth. They are estimated to contain 10 to 14 % of the carbon. Wetland soil histosol may contain 20 % carbon by weight. Peats are even more carboniferous. Draining of wetland releases large quantities of CO2 . Freshwater Wetlands Bog In the last century public attitude towards wetland changed dramatically as ecological and economic studies revealed previously unrecognized values
  • 17. Freshwater Wetlands Rice culture is one of the most productive and dependable of agricultural systems yet devised by humans it is a freshwater marsh ecosystem. The flooding, draining and careful rebuilding of the rice paddy each year of the rice plant. The flooding process is similar to the hyperiod ( duration, frequency and depth) of natural wetlands.
  • 18. Forested Wetlands Swamp and floodplains occur in river bottoms, often intermixed with marshes especially where large rivers cross coastal plains. They are also found in large depressions, lime sinks and other low-lying areas that are flooded at least some of the time. As with marshes, hydrology plays a major role in determining species composition and productivity. Bald cypress The knees of bald cypress trees conduct air from atmosphere to roots when a swamp is flooded and the water logged sediments contain little or fee oxygen. The greatest productivity occurs where the soil surface is flooded in winter or spring and is relatively dry during most of the growing season Water Tupelo
  • 19. A tidal marsh is a type of marsh that is found along coasts and estuaries of which the flooding characteristics are determined by the tidal movement of the adjacent estuary, sea or ocean. According to the salinity of the flooding water, freshwater, brackish and saline tidal marshes are distinguished. In low lying coastal plains, tides extend inland on large rivers. For example-meter amplitude tide occurs on the Potomac river beyond Washington DC and on the James River as far inland as Richmond, Virginia, creating a unique habitat of freshwater wetland. Fleshy, low –fiber vegetation is produced in fresh water tidal marshes summer, which then decomposes back to mud in winter, in contrast to salt marshes where the more fibrous marsh grass remain standing all year around Potomac river marshes Tidal Freshwater Marshes
  • 20. 1. Freshwater Ecosystems are very important part of our earth ecosystem as they provide the water for various purposes and use. 2. They also help the domesticated and Terrestrial ecosystem to survive and keep these kind of ecosystem alive in nature. 3. Ecosystem of Freshwater are very less on our earth 4. They just occupy 1 %total water present on earth which supports the more than 7 billion human population and thousand of species present on our earth. 5. So it is important to keep fresh water ecosystem safe from other system as it is a life for other ecosystem. Conclusion

Editor's Notes

  1. Freshwater Ecosystems include standing water or lentic such as lakes, ponds, marshes and wet lands, and the flowing water or lotic such as spring, streams and rivers.
  2. basis of productivity, Lakes are often classified as either oligotrophic or eutrophic