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Stream Project

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Title: Stream Project


1
Stream Project
  • Alyssa, Ian, Nick, Dan, Kosuke, and Billy

A
2
TDS and TSS
  • TDS Total Dissolved Solids
  • Conductivity
  • More dissolved solids in the water, more
    conductivity
  • TSS Total Suspended Solids
  • How much sediment is carried by a stream

K
3
Conductivity
1st Time 2nd Time Average
Riffle 307.9 306 306.95
Run 306.3 307.6 306.95
Pool 306.7 306.3 306.5
K
4
TSS
Weight Sediment
Riffle 0.55 0.05
Run 0.5 0
Pool 0.5 0
Paper 0.5 g
Water 150 ml
K
5
Phosphates / Nitrates
Phosphates Phosphates Nitrates Nitrates
1st 2nd 1st 2nd
Riffle 0 0 0 0
Run 0 0 1.1 0
Pool 0 0 0 0
K
6
  • Not much rain in the last week or two
  • Little sediment got into the stream No erosion
  • No phosphates nor nitrates
  • If there were more rain, there might be more TDS
    or TSS.

K
7
Testing Oxygen
  • When testing the oxygen levels you need to gather
    up 25 milliliters from the three sections of the
    stream. The pool, the riffle, and the run. Then
    after collecting each water sample in a beaker
    and then we took the ampule (which is filled with
    a chemical that reacts to the oxygen in the
    water) after breaking off the tip of the ampule
    and watched it to see if it changed color. After
    waiting several seconds the color is matched up
    on a chart and then recorded on the work sheet.

I
8
Testing Phosphates
  • When testing the Phosphate levels in the stream
    several things must be done. First gather up 25
    milliliters of water from each are of the stream
    the run, riffle, and the pool. After collected
    each sample in a beaker add two drops of
    phosphate into the water. Swirl it slightly to
    mix it in. Then taking the ampule break off the
    tip in the water and watch to see if the chemical
    in the ampule changes color. After waiting
    several seconds compare the color of the ampule
    to the chart and then record the results on the
    paper.

I
9
Testing Nitrate/PH
  • Using a small tab to test the Nitrate and PH
    levels in the Run, Riffle, and Pool. First you go
    to each area of the stream and then using two
    tabs for each area. Dunk the tabs slightly into
    the water and then wait about two seconds. After
    doing each tab for each area of the stream use
    the Nitrate and PH chart to see what the levels
    are for each area of the stream. Then using that
    information you record the results on your paper.

I
10
Testing Dissolved Oxygen
  • After getting the first half of the information
    from the Testing Oxygen lab you then test the
    rate of that the oxygen dissolves. Take all of
    your water samples from each area of the stream
    and then you use to the Dissolved Oxygen Meter.
    You take the meter and dunk the end of it in the
    water sample. You then stir it slightly till you
    get to the highest oxygen level. Then looking at
    the computer screen you watch to see how fast the
    oxygen level falls for each sample then your
    record your results on the paper. You repeat this
    process for all areas of the stream.

I
11
Graph of Dissolved Oxygen
  • Dissolved O2
  • Riffle
  • Chemical Meter
  • 9 1.1
  • 9 1.1
  • Run
  • Chemical Meter
  • 10 .9
  • 7 .9
  • Pool
  • Chemical Meter
  • 11 .8
  • 7 .8

I
12
Graph of Phosphates
  • Riffle
  • 0
  • 0
  • Run
  • 0
  • 0
  • Pool
  • 0
  • 0

I
13
Graph of Nitrates and Ph
  • Nitrate Ph
  • Riffle Run Pool Riffle Run Pool
  • 0 1.1 0 5 5.5 6
  • 0 0 0 7 4 5


I
14
Leeches
Johnny Darter
Gilled snails, water pennies, damselfly, mayfly,
dragonfly larva, clams
Algae
Raw Materials
D
15
Critter Catching 101
  • Wade into either the Run, Riffle, or Pool.
  • Have your partner hold the net down into the
    stream.
  • Have the person not holding the net begin kicking
    the stream bed rocks.
  • Make sure the net holder is catching the sediment
    in the net.
  • Take the net out of the water and empty the
    contents into a tub.

D
16
Run
N
17
Riffle
N
18
Macro invertebrate
  • The stream health macro invertebrate sheet tells
    how healthy a stream is by the organisms living
    in or near it. In the run we found 2 sensitive
    critters which are good. And 1 somewhat sensitive
    critter. We found no tolerant critters. The run
    is an 8 which is poor. The riffle had 2 sensitive
    critters and 3 somewhat sensitive critters. The
    riffle also had 1 tolerant critter. The riffle
    had a score of 13 which is a fair score. The pool
    had 1 sensitive critter and 1 somewhat sensitive
    critter and 1 tolerant critter. It had a score of
    6 which is poor. The area with the most critters
    was the riffle. It also had the most good
    critters. A reason for that could be that there
    is more oxygen in the riffle. The critters can
    also hide on one side of the rocks and not be
    taken downstream. On a side note there were 831
    algae in the riffle, 996 algae in the run, and
    302 algae in the pool.

A
19
HEI
  • The HEI sheet helps evaluate abiotic or
    non-living factors in the stream. The HEI sheet
    told me that the stream is not extra healthy but
    it is not terribly bad either, it is about medium
    or average. The pool has a score of 79. the
    riffle has a score of 69. and the run has a score
    of 77. the overall score of the stream as a whole
    is 87. which is pretty good. The plants found
    along the stream are good because they provide
    oxygen, shade, and breeding grounds.

A
20
Comparing
  • Comparing all three sections of the stream all
    three have their differences. The pool, seemed to
    have a greater concentration of fish than the
    riffle and run, likely because of the greater
    number of hiding places. The riffle had more
    macro invertebrates likely because there were
    more rocks to cling to and more algae to consume.
    The run did not even have much of anything at
    all. But a reason for these findings could be
    that we got preoccupied with catching fish and
    were one of the last groups to collect animal
    data. So the stream had already been stirred up.

D
21
Sources
  • www.scientificillustrator.com
  • www.aquaticplantcentral.com
  • Troutnut.com
  • http//www.cals.ncsu.edu/course/ent525/water/aquat
    ic/pages/15_jpg.htm
  • http//bugguide.net/node/view/53307

N
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