Pre-Reading

Pre-Reading Activity 

Discuss the following questions with a partner.

  1. What are ways that humans use freshwater?
  2. Brainstorm examples of different types of freshwater biomes.
  3. How do wetlands, like Everglades National Park (Figure 19), differ from lakes?
  4. Have you visited wetlands before? If so, where?
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(Figure 19) Located in southern Florida, Everglades National Park is vast array of wetland environments, including sawgrass marshes, cypress swamps, and estuarine mangrove forests. Here, a great egret walks among cypress trees. (credit: NPS)

Read the definition of a key term in the reading and discuss the following questions.

percolation (n) the movement of water through the pores in the soil or rocks

  • What is the verb form of percolation?
  • Why is percolation important in freshwater biomes?

Reading 5: Freshwater Biomes [1]

Freshwater Biomes

Freshwater biomes include lakes and ponds (standing water) as well as rivers and streams (flowing water). They also include wetlands, which will be discussed later. Humans rely on freshwater biomes to provide aquatic resources for drinking water, crop irrigation, sanitation, and industry. These various roles and human benefits are referred to as ecosystem services. Lakes and ponds are found in terrestrial landscapes and are, therefore, connected with abiotic and biotic factors influencing these terrestrial biomes.

Lakes and Ponds

Lakes and ponds can range in area from a few square meters to thousands of square kilometers. Temperature is an important abiotic factor affecting living things found in lakes and ponds. In the summer, thermal stratification of lakes and ponds occurs when the upper layer of water is warmed by the sun and does not mix with deeper, cooler water. Light can penetrate within the photic zone of the lake or pond. Phytoplankton (algae and cyanobacteria) are found here and carry out photosynthesis, providing the base of the food web of lakes and ponds. Zooplankton, such as rotifers and small crustaceans, consume these phytoplankton. At the bottom of lakes and ponds, bacteria in the aphotic zone break down dead organisms that sink to the bottom.

Nitrogen and phosphorus are important limiting nutrients in lakes and ponds. Because of this, they are determining factors in the amount of phytoplankton growth in lakes and ponds. When there is a large input of nitrogen and phosphorus (from sewage and runoff from fertilized lawns and farms, for example), the growth of algae skyrockets, resulting in a large accumulation of algae called an algal bloom. Algal blooms can become so extensive that they reduce light penetration in water. As a result, the lake or pond becomes aphotic and photosynthetic plants cannot survive. When the algae die and decompose, severe oxygen depletion of the water occurs. Fish and other organisms that require oxygen are then more likely to die, and resulting dead zones are found across the globe. Lake Erie represents a freshwater and marine habitat where phosphorus control and storm water runoff pose significant environmental challenges.

Rivers and Streams

Rivers and streams are continuously moving bodies of water that carry large amounts of water from the source, or headwater, to a lake or ocean. The largest rivers include the Nile River in Africa, the Amazon River in South America, and the Mississippi River in North America. Abiotic features of rivers and streams vary along the length of the river or stream. Streams begin at a point of origin referred to as source water. The source water is usually cold, low in nutrients, and clear. The channel (the width of the river or stream) is narrower than at any other place along the length of the river or stream. Because of this, the current is often faster here than at any other point of the river or stream.

The fast-moving water results in minimal silt accumulation at the bottom of the river or stream; therefore, the water is clear. Photosynthesis here is mostly attributed to algae that are growing on rocks; the swift current inhibits the growth of phytoplankton. An additional input of energy can come from leaves or other organic material that falls into the river or stream from trees and other plants that border the water. When the leaves decompose, the organic material and nutrients in the leaves are returned to the water. Plants and animals have adapted to this fast-moving water. For instance, leeches (phylum Annelida) have elongated bodies and suckers on both ends. These suckers attach to the substrate, keeping the leech anchored in place. Freshwater trout species (phylum Chordata) are an important predator in these fast-moving rivers and streams.

As the river or stream flows away from the source, the width of the channel gradually widens and the current slows. This slow-moving water, caused by the gradient decrease and the volume increase as tributaries unite, has more sedimentation. Phytoplankton can also be suspended in slow-moving water. Therefore, the water will not be as clear as it is near the source. The water is also warmer. Worms (phylum Annelida) and insects (phylum Arthropoda) can be found burrowing into the mud. The higher order predator vertebrates (phylum Chordata) include waterfowl, frogs, and fishes. These predators must find food in these slow moving, sometimes murky, waters and, unlike the trout in the waters at the source, these vertebrates may not be able to use vision as their primary sense to find food. Instead, they are more likely to use taste or chemical cues to find prey.

Wetlands

Wetlands are environments in which the soil is either permanently or periodically saturated with water. Wetlands are different from lakes because wetlands are shallow bodies of water whereas lakes vary in depth. Emergent vegetation consists of wetland plants that are rooted in the soil but have portions of leaves, stems, and flowers extending above the water’s surface. There are several types of wetlands including marshes, swamps, bogs, mudflats, and salt marshes. The three shared characteristics among these types—what makes them wetlands—are their hydrology, hydrophytic vegetation, and hydric soils.

Freshwater marshes and swamps are characterized by slow and steady water flow. Bogs develop in depressions where water flow is low or nonexistent. Bogs usually occur in areas where there is a clay bottom with poor percolation. Percolation is the movement of water through the pores in the soil or rocks. The water found in a bog is stagnant and oxygen depleted because the oxygen that is used during the decomposition of organic matter is not replaced. As the oxygen in the water is depleted, decomposition slows. This leads to organic acids and other acids building up and lowering the pH of the water. At a lower pH, nitrogen becomes unavailable to plants. This creates a challenge for plants because nitrogen is an important limiting resource. Some types of bog plants (such as sundews, pitcher plants, and Venus flytraps) capture insects and extract the nitrogen from their bodies. Bogs have low net primary productivity because the water found in bogs has low levels of nitrogen and oxygen.

Reading Comprehension

Choose the best answers to the following questions.

  1. What causes algal blooms?
    1. increased shade
    2. increased nitrogen
    3. decreased acidity
    4. decreased nutrients
  2. What characterizes source water? (Circle all that apply.)
    1. high salt content
    2. high water clarity
    3. low temperatures
    4. low in nitrogen
  3. How are bogs different from marshes? (Circle all the apply.)
    1. Bogs have more moving water.
    2. Bogs have more connection to the groundwater.
    3. Bogs have less mud and clay.
    4. Bogs have less plant life.

Answer the questions in your own words.

  1. What are ecosystem services? Why are they important?
  2. How does being aphotic affect freshwater biomes?
  3. How does a fast current affect plant life in rivers and streams?
  4. How are the conditions at the source of a river different from further downstream?

Read the statements. Put T for True or F for False. If the statement is false, correct the error to make the statement true.

  1. _______ Saltwater biomes include lakes, ponds, rivers, streams, and wetlands.
  2. _______ The abiotic factors in aquatic biomes are the same as those in terrestrial ones.
  3. _______ Temperature affects the structure of aquatic systems.

Vocabulary Practice

Complete the sentences below using the words in the box.

accumulation       consume       extract       gradient     pose

prey      shallow      suspended       thermal       whereas
  1. Sharks sometimes _____________________ seagulls and turtles for food.
  1. The _____________________ of algae in the lake starved the water of oxygen.
  2. The company _____________________ oil from seeds.
  3. Dust and particles _____________________ in the air can irritate people’s lungs.
  4. As the city grows, housing development _____________________ a risk to the neighboring wetland.
  5. _____________________ avoid being eaten by running or hiding.
  6. The water was too _____________________ for the boat to pass through.
  7. Lakes have freshwater _____________________ oceans have saltwater.
  8. Firefighters uses _____________________ imaging cameras to monitor forest fires.
  9. The steep _____________________ of the hill made building a house there difficult.

Reading Discussion

Discuss these questions with your classmates.

  1. Why is sunlight a driving force behind the structure of forests and an important factor in deep bodies of water?
  2. How does the health of aquatic biomes affect the humans economically, psychologically, and socially?
  3. Given the descriptions of wetlands (bogs, marshes, and swamps), would you like to visit one? What might be the most interesting aquatic biome to visit?
  4. Scientists have discovered the bodies of humans and other living things buried in bogs for hundreds of years, but not yet decomposed. Suggest a possible biological explanation for why such bodies are so well-preserved.
  1. Download the original, un-adapted version for free at https://cnx.org/contents/jVCgr5SL@15.47:qk4q8kKY@11/44-4-Aquatic-Biomes

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Preparing for University Reading Copyright © 2020 by Kathleen Mitchell; Matthew Burrows; and Kendra Staley is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License, except where otherwise noted.

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