Thursday, August 26, 2010

Measuring Biomass

Biomass refers to the total number of living organisms in a certain area. It is the amount of energy that is available for the next trophic level. It is important to measure biomass because it gives an idea of the state of the ecosystem. By knowing the amount of energy available, one can know how many species it can support.

One way to measure biomass is to obtain the dry weight of an organism (since it is a rough approximation to the amount of biomass) and multiply it by the number of those organisms in a given area. The units are grams per meter squared (or cubed if it is an aquatic ecosystem). This is a commonly used method. However, the difficulty here is knowing with accuracy the total number of individuals, particularly if one wants to measure biomass in a wide area.

The way to get the 'most accurate' biomass measurement would require counting absolutely every organism. However, there are ways to get an estimate. One method is by making a transect, which means tracing an imaginary line across the selected ecosystem, and counting the organisms that are in the quadrants following the transect. That data can then be extrapolated to the rest of the ecosystem, or several transects can be made, to get a more accurate estimate.

Quadrats are another method in which a rectangular area is selected and biomass is counted in that specific place only. Random quadrats can be selected, and as with the transect, the more measurements (quadrats) you select, the better the estimate.

There is also a remote sensing technique that surveys the earth's surface from the air or using satellites. Images generated are analyzed to determine total biomass productivity. However, this is only used with producers, and works mostly on dense woodlands.

In the future, more technological tools will be developed and improved in order to measure biomass easily. This could include better imaging to determine biomass, as well as a technological tool that will help get an accurate number of the individuals of a species in an area. The main benefit is that the measurement will be non-destructive, harming no ecosystem.

After biomass is collected at different trophic levels, a biomass pyramid can be made. Here's an example of an estuary, more specifically, Chesapeake Bay. Taking the following food chain:

phytoplankton -> clams -> blue crabs -> sandbar sharks

Firstly, the units will be measured in kg per cubic kilometer, since it is a aquatic ecosystem. We can calculate the amount of each species in the food chain, and we get the following information:

There are 31,333,333 units of phytoplankton in 2320 cubic km of water in Chesapeake Bay.
There are 9,200,000 clams in that same area.
There are 278,666 blue crabs.
There is one sandbar shark.

Then, considering the weight of each specie and the area, we can calculate biomass, which then can be shown in what is known as a biomass pyramid. Results are shown below.




Bibliography:
Rosillo Callé, Francisco. The biomass assessment handbook. Illustrated ed. Earthscan, 2007. Print.

Kimball, John W. "Food Chains." Biology Pages. N.p., 23 Apr 2010. Web. 27 Aug 2010. .

Tackenberg, Oliver. "A New Method for Non-destructive Measurement of Biomass, Growth Rates, Vertical Biomass Distribution and Dry Matter Content Based on Digital Image Analysis." Oxford Journals (2007): n. pag. Web. 27 Aug 2010. .


4 comments:

  1. thank you, it was very useful for my research in calculation of biomass of plants

    ReplyDelete
  2. Thanks a lot, it was very helpful.

    ReplyDelete
  3. But how is historical biomass counted ?
    How do we estimate the biomass of ten thousand years ago ?

    ReplyDelete