Garnet Abrams Faculty Advisor: Dr. Eileen Zerba Princeton Environmental Institute Summer 2010 Nutrients – Nitrogen and Phosphorous YSI – Temperature, pH, salinity, turbidity, dissolved.
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Transcript Garnet Abrams Faculty Advisor: Dr. Eileen Zerba Princeton Environmental Institute Summer 2010 Nutrients – Nitrogen and Phosphorous YSI – Temperature, pH, salinity, turbidity, dissolved.
Garnet Abrams
Faculty Advisor: Dr. Eileen Zerba
Princeton Environmental Institute
Summer 2010
Nutrients – Nitrogen and Phosphorous
YSI – Temperature, pH, salinity, turbidity, dissolved O2,
chlorophyll, and blue-green algae
Primary inputs – Stony Brook and Millstone River
Smaller inputs – Elm Stream, Washington Stream, storm
drain networks
Dillon pool filters backwashed into Elm Stream and Lake
Carnegie
Chlorine tolerance of different species
Installation of UV filtration system will reduce chlorine
concentrations in backwash
Construction of new
chemistry and
neuroscience buildings
alters nutrient levels and
turbidity
Urban watershed results
in quick and high flood
peaks. Also increases
pollution stored in and
on the ground that is
concentrated in initial
rain events
Primary objective to redirect the stream from undercutting
Washington Road
Secondary to build a healthier environment that will be
better able to filter pollutants and recycle the high nutrients
into the ecosystems instead of concentrating in Lake
Carnegie
Adding meanders lengthens stream and slows current
Diversifying ecology
Altering streambed to incorporate more step-pools
Blue – bedrock
Green – boulders
Yellow – mixed large gravel and
boulders
Orange – mixed sand and large
gravel
Red Lines - Undercutting
Current streambed is
unstable in a state of
transition and
reconfiguring its floodplain
Upper narrow, steep, and
straight run extreme focus
of restoration