If you can't read please download the document
Upload
prem
View
47
Download
0
Tags:
Embed Size (px)
DESCRIPTION
PowerPoint Development Tool For the Cooperative Lakes Monitoring Program Enabling YOU to make your own presentations. What is the purpose of this PowerPoint?. The resources contained in this PowerPoint file are to help anyone interested in the MiCorps program develop their own presentation. - PowerPoint PPT Presentation
Citation preview
PowerPoint Development Tool
For the Cooperative Lakes Monitoring Program
Enabling YOU to make your own presentations
What is the purpose of this PowerPoint?
The resources contained in this PowerPoint file are to help anyone interested in the MiCorps program develop their own presentation.
Simply keep the slides you are interested in, delete those you are not.
Use the excel file to create graphs using your own data and paste them into this presentation.Download it here www.micorps.net/documents/CLMP_Graph_Builders.xls
MiCorpsOverview
Together, well create the nations most comprehensive and meaningful clean water monitoring system, building a water legacy for generations to come.
Former Governor Jennifer Granholm2003
MiCorps Mission
Network and expand volunteer water quality monitoring organizations statewide for the purpose of collecting, sharing, and using reliable data.
Educate and inform the public about water quality issues.
Foster water resources stewardship to facilitate the preservation and protection of Michigans water resources.
MiCorps- How does it work? MiCorps consists of two main programs concentrating on volunteer stream and lake monitoring.
Volunteer Stream Monitoring Program (VSMP)
Cooperative Lakes Monitoring Program (CLMP)Other components of MiCorps that support the 2 main programs are:- Grants (Streams only)- Trainings- Annual Conference- Newsletter- Email ListServ for discussion and news- Web site - Web-based, publically available, searchable database
MiCorps concentration in quality assurance gives usBetter data and informationMore consistent and complete Quality controlled and assuredBroadly collectedGreater use by the DNRE and local managers in planning and managementContinued funding of the program.
Cooperative Lakes Monitoring Program (CLMP)
CLMP Goals
Provide baseline information and document trends in water quality for individual lakes.
Educate lake residents, users, and interested citizens in collection of water quality data, lake ecology, and lake management practices.
CLMP Goals
Build a constituency of citizens to practice sound lake management at the local level and build public support for lake quality protection.
Provide a cost-effective process for the DNRE to increase baseline data for lakes in Michigan.
CLMP Membership2010 number:~225 Lakes monitored by lake associations or individuals
What do we measure in the CLMP?
Transparency
Total Phosphorus
Chlorophyll a
Dissolved Oxygen and Temperature
Aquatic Plants
What is expected of volunteers? There is a slight cost for volunteers to enroll their lake into the program ($20-60, depending on parameter, plus one time equipment costs)
Volunteers are expected to take weekly or biweekly transparency measurements. Other measurements may need to be taken monthly. Volunteers are asked to attend an annual training and follow directions carefully.
Sample turn in: twice during the sampling season volunteers are asked to bring their samples into a local DNRE office.
And what does the CLMP provide in return?The potential for long term data on your lake (the program has been operating since 1973).
Training
Analyzes your water samples
Excellent quality assurance procedures
A volunteer mentor program to get you help if you need it.
Doesnt CLMP provide a magic formula for fixing lakes?No. The CLMP only provides a way for you to collect the baseline data that is needed to make proper management decisions.
It takes further effort, further resources, and committed riparian owners and state and local governments to carry out these management decisions.
What do transparency, phosphorus, and chlorophyll measurements tell us about a lake?Observing long-term trends of these parameters can help us understand if the amount of algae is increasing in the lake over time.
If trends shows the decreases of transparency, and increases of phosphorus and chlorophyll of the lake, then steps need to be taken to reduce the amount of nutrients coming into the lake.
Otherwise the lake may be headed toward eutrophication (murky water is undesirable for swimming; low oxygen can kill fish).
Secchi Disk Transparency TrendsThis graph was created by the CLMP Graph Builder excel file, downloadable atwww.micorps.net/documents/CLMP_Graph_Builders.xls
Download this file to make your own graphs and paste them into this presentation!
Chart3
20
21
22
23
24
25
24
23
22
21
20
21
22
23
24
25
24
23
22
21
20
21
22
23
24
25
24
23
22
21
20
21
22
23
24
25
24
23
22
21
20
Year
Secchi Disk Transparency (ft)
Secchi Disk Transparency Measurements for Dead Spider Lake from 1980 to 2020
Secchi
YearSecchi Measurement
in feet
198020
198121
198222
198323
198424
198525
198624
198723
198822
198921
199020
199121
199222
199323
199424
199525
199624
199723
199822
199921
200020
200121
200222
200323
200424
200525
200624
200723
200822
200921
201020NOTE:
201121
201222Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201323The dotted red line is the overall trend.
201424If you don't have data for a particular year, delete the date and the measurement value.
201525
201624To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201723Then, select "copy".
201822Enter PowerPoint, right-click on a slide and select "paste".
201921
202020
Secchi
Year
Secchi Disk Transparency (ft)
Secchi Disk Transparency Measurements for Dead Spider Lake from 1980 to 2020
Phosphorus
YearSpring PhosphorusSummer Phosphorus
in micrograms per liter (also known as parts per billion or ppb)
198053
198164
198273
198384
198453
198564
198673
198784
198853
198964
199073
199184
199253
199364
199473
199584
199653
199764
199873
199984
200053
200164
200273
200384
200453
200564
200673
200784
200853
200964
201073NOTE:
201184
201253Enter in your own values as needed in columns A and B and C. The table will autoscale itself so it will continue to hold the data properly.
201364The dotted lines are the overall trend.
201473
201584To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201653Then, select "copy".
201764Enter PowerPoint, right-click on a slide and select "paste".
201873
201984
202053
Phosphorus
Spring Phosphorus
Summer Phosphorus
Year
Phosphorus (mg/l)
Spring and Summer Phosphorus Measurements for Dead Spider Lake from 1980 to 2020
Chlorophyll
YearChlorophyll a
in micrograms per liter (also known as parts per billion or ppb)
19804.5
19816
19828
198310
198411
198512
198611
19879
19888
19895
19904.5
19916
19928
199310
199411
199512
199611
19979
19988
19995
20004.5
20016
20028
200310
200411
200512
200611
20079
20088
20095
20104.5NOTE:
20116
20128Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201310The dotted red line is the overall trend.
201411If you don't have data for a particular year, delete the date and the measurement value.
201512
201611To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
20179Then, select "copy".
20188Enter PowerPoint, right-click on a slide and select "paste".
20195
20204
Chlorophyll
Year
Chlorophyll (mg/l)
Chlorophyll a Measurements for Dead Spider Lake from 1980 to 2020
Sheet2
Sheet3
Phosphorus TrendsThis graph was created by the CLMP Graph Builder excel file, downloadable atwww.micorps.net/documents/CLMP_Graph_Builders.xls
Download this file to make your own graphs and paste them into this presentation!
Chart4
53
64
73
84
53
64
73
84
53
64
73
84
53
64
73
84
53
64
73
84
53
64
73
84
53
64
73
84
53
64
73
84
53
64
73
84
53
64
73
84
53
Spring Phosphorus
Summer Phosphorus
Year
Phosphorus (mg/l)
Spring and Summer Phosphorus Measurements for Dead Spider Lake from 1980 to 2020
Secchi
YearSecchi Measurement
in feet
198020
198121
198222
198323
198424
198525
198624
198723
198822
198921
199020
199121
199222
199323
199424
199525
199624
199723
199822
199921
200020
200121
200222
200323
200424
200525
200624
200723
200822
200921
201020NOTE:
201121
201222Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201323The dotted red line is the overall trend.
201424If you don't have data for a particular year, delete the date and the measurement value.
201525
201624To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201723Then, select "copy".
201822Enter PowerPoint, right-click on a slide and select "paste".
201921
202020
Secchi
Year
Secchi Disk Transparency (ft)
Secchi Disk Transparency Measurements for Dead Spider Lake from 1980 to 2020
Phosphorus
YearSpring PhosphorusSummer Phosphorus
in micrograms per liter (also known as parts per billion or ppb)
198053
198164
198273
198384
198453
198564
198673
198784
198853
198964
199073
199184
199253
199364
199473
199584
199653
199764
199873
199984
200053
200164
200273
200384
200453
200564
200673
200784
200853
200964
201073NOTE:
201184
201253Enter in your own values as needed in columns A and B and C. The table will autoscale itself so it will continue to hold the data properly.
201364The dotted lines are the overall trend.
201473
201584To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201653Then, select "copy".
201764Enter PowerPoint, right-click on a slide and select "paste".
201873
201984
202053
Phosphorus
Spring Phosphorus
Summer Phosphorus
Year
Phosphorus (mg/l)
Spring and Summer Phosphorus Measurements for Dead Spider Lake from 1980 to 2020
Chlorophyll
YearChlorophyll a
in micrograms per liter (also known as parts per billion or ppb)
19804.5
19816
19828
198310
198411
198512
198611
19879
19888
19895
19904.5
19916
19928
199310
199411
199512
199611
19979
19988
19995
20004.5
20016
20028
200310
200411
200512
200611
20079
20088
20095
20104.5NOTE:
20116
20128Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201310The dotted red line is the overall trend.
201411If you don't have data for a particular year, delete the date and the measurement value.
201512
201611To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
20179Then, select "copy".
20188Enter PowerPoint, right-click on a slide and select "paste".
20195
20204
Chlorophyll
Year
Chlorophyll (mg/l)
Chlorophyll a Measurements for Dead Spider Lake from 1980 to 2020
Sheet2
Sheet3
Chlorophyll TrendsThis graph was created by the CLMP Graph Builder excel file, downloadable atwww.micorps.net/documents/CLMP_Graph_Builders.xls
Download this file to make your own graphs and paste them into this presentation!
Chart5
4.5
6
8
10
11
12
11
9
8
5
4.5
6
8
10
11
12
11
9
8
5
4.5
6
8
10
11
12
11
9
8
5
4.5
6
8
10
11
12
11
9
8
5
4
Year
Chlorophyll (mg/l)
Chlorophyll a Measurements for Dead Spider Lake from 1980 to 2020
Secchi
YearSecchi Measurement
in feet
198020
198121
198222
198323
198424
198525
198624
198723
198822
198921
199020
199121
199222
199323
199424
199525
199624
199723
199822
199921
200020
200121
200222
200323
200424
200525
200624
200723
200822
200921
201020NOTE:
201121
201222Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201323The dotted red line is the overall trend.
201424If you don't have data for a particular year, delete the date and the measurement value.
201525
201624To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201723Then, select "copy".
201822Enter PowerPoint, right-click on a slide and select "paste".
201921
202020
Secchi
Year
Secchi Disk Transparency (ft)
Secchi Disk Transparency Measurements for Dead Spider Lake from 1980 to 2020
Phosphorus
YearSpring PhosphorusSummer Phosphorus
in micrograms per liter (also known as parts per billion or ppb)
198053
198164
198273
198384
198453
198564
198673
198784
198853
198964
199073
199184
199253
199364
199473
199584
199653
199764
199873
199984
200053
200164
200273
200384
200453
200564
200673
200784
200853
200964
201073NOTE:
201184
201253Enter in your own values as needed in columns A and B and C. The table will autoscale itself so it will continue to hold the data properly.
201364The dotted lines are the overall trend.
201473
201584To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201653Then, select "copy".
201764Enter PowerPoint, right-click on a slide and select "paste".
201873
201984
202053
Phosphorus
Spring Phosphorus
Summer Phosphorus
Year
Phosphorus (mg/l)
Spring and Summer Phosphorus Measurements for Dead Spider Lake from 1980 to 2020
Chlorophyll
YearChlorophyll a
in micrograms per liter (also known as parts per billion or ppb)
19804.5
19816
19828
198310
198411
198512
198611
19879
19888
19895
19904.5
19916
19928
199310
199411
199512
199611
19979
19988
19995
20004.5
20016
20028
200310
200411
200512
200611
20079
20088
20095
20104.5NOTE:
20116
20128Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201310The dotted red line is the overall trend.
201411If you don't have data for a particular year, delete the date and the measurement value.
201512
201611To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
20179Then, select "copy".
20188Enter PowerPoint, right-click on a slide and select "paste".
20195
20204
Chlorophyll
Year
Chlorophyll (mg/l)
Chlorophyll a Measurements for Dead Spider Lake from 1980 to 2020
Sheet2
Sheet3
Trophic Status Index (TSI)The CLMP uses Carlsons TSI to classify lakes as OligotrophicMesotrophicEutrophicHypereutrophic
Get the TSI values for your lake from the most recent CLMP annual report and use the next slide to classify your lake.
Dead Spider Lake is a Mesotrophic lakeDirections1. Move the 3 dots to the proper location for your lake.2. Move the 3 lines so they line the dots up with the top bar.3. The 3 lines indicate the approximate trophic status of your lake.4. Many lakes will not fit neatly into a single trophic category.
What do dissolved oxygen and temperature profiles tell us about a lake?Define the temperature and density zones of lakes.
Thermally classify lakes (warm or cold water)
Determines bottom water oxygen depletion.
Sediment phosphorus release- phosphorus is released from bottom sediments in anoxic (no oxygen) conditions.
Fishery status indicator- what kind of fish can this lake support?
This graph was created by the CLMP Graph Builder excel file, downloadable atwww.micorps.net/documents/CLMP_Graph_Builders.xls
Download this file to make your own graphs and paste them into this presentation!DO and Temp Profiles for Dead Spider LakeMay 15, 2010
Chart6
11
55
1010
1515
17.517.5
2020
22.522.5
2525
27.527.5
3030
32.532.5
3535
37.537.5
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
Secchi
YearSecchi Measurement
in feet
198020
198121
198222
198323
198424
198525
198624
198723
198822
198921
199020
199121
199222
199323
199424
199525
199624
199723
199822
199921
200020
200121
200222
200323
200424
200525
200624
200723
200822
200921
201020NOTE:
201121
201222Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201323The dotted red line is the overall trend.
201424If you don't have data for a particular year, delete the date and the measurement value.
201525
201624To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201723Then, select "copy".
201822Enter PowerPoint, right-click on a slide and select "paste".
201921
202020
Secchi
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Year
Secchi Disk Transparency (ft)
Secchi Disk Transparency Measurements for Dead Spider Lake from 1980 to 2020
Phosphorus
YearSpring PhosphorusSummer Phosphorus
in micrograms per liter (also known as parts per billion or ppb)
198053
198164
198273
198384
198453
198564
198673
198784
198853
198964
199073
199184
199253
199364
199473
199584
199653
199764
199873
199984
200053
200164
200273
200384
200453
200564
200673
200784
200853
200964
201073NOTE:
201184
201253Enter in your own values as needed in columns A and B and C. The table will autoscale itself so it will continue to hold the data properly.
201364The dotted lines are the overall trend.
201473
201584To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201653Then, select "copy".
201764Enter PowerPoint, right-click on a slide and select "paste".
201873
201984
202053
Phosphorus
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
Spring Phosphorus
Summer Phosphorus
Year
Phosphorus (mg/l)
Spring and Summer Phosphorus Measurements for Dead Spider Lake from 1980 to 2020
Chlorophyll
YearChlorophyll a
in micrograms per liter (also known as parts per billion or ppb)
19804.5
19816
19828
198310
198411
198512
198611
19879
19888
19895
19904.5
19916
19928
199310
199411
199512
199611
19979
19988
19995
20004.5
20016
20028
200310
200411
200512
200611
20079
20088
20095
20104.5NOTE:
20116
20128Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201310The dotted red line is the overall trend.
201411If you don't have data for a particular year, delete the date and the measurement value.
201512
201611To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
20179Then, select "copy".
20188Enter PowerPoint, right-click on a slide and select "paste".
20195
20204
Chlorophyll
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Year
Chlorophyll (mg/l)
Chlorophyll a Measurements for Dead Spider Lake from 1980 to 2020
5152010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:May 15, 2010
Time:12:30
Lake:Dead Spider (Nowhere Co.)May 15, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
113.59.91
513.410.32
1013.410.64
1513.410.66
17.513.410.6
2013.410.53
22.513.410.67
2513.310.75
27.513.310.66
3013.310.71
32.513.310.67
3513.310.62
37.513.210.77
5152010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
6102010
Time:Arbutus
County:Grand TraverseDissolved Oxygen and Temperature Profile
Date:June 10, 2010
Time:14:00
Lake:Arbutus (Grand Traverse Co.)June 10, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
1219.1
5219.3
1020.99.23
1520.89.3
17.520.89.49
2020.79.73
22.520.59.35
2517.912.06
27.516.912.38
3016.412.15
32.515.910.9
3515.55.73
37.515.43.8
6102010
11
55
1010
1515
17.517.5
2020
22.522.5
2525
27.527.5
3030
32.532.5
3535
37.537.5
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
772010
Time:Arbutus
County:Grand TraverseDissolved Oxygen and Temperature Profile
Date:July 7, 2010
Time:11:30
Lake:Arbutus (Grand Traverse Co.)July 7, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
125.68.08
525.78
1025.77.37
1525.67.47
17.525.67.78
2025.67.96
22.525.58.03
2524.75.92
27.521.25.98
3019.82.75
32.518.61.59
3517.70.21
37.516.80.09
772010
11
55
1010
1515
17.517.5
2020
22.522.5
2525
27.527.5
3030
32.532.5
3535
37.537.5
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
792010
Time:Arbutus
County:Grand TraverseDissolved Oxygen and Temperature Profile
Date:July 9, 2010
Time:11:30
Lake:Arbutus (Grand Traverse Co.)July 9, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
126.48.49
526.48.52
1025.78.98
1524.89.36
17.524.39.45
2023.89.14
22.523.48.87
2521.28.77
27.519.87.53
3018.46.81
32.517.55.34
3516.82.42
37.516.20.39
792010
11
55
1010
1515
17.517.5
2020
22.522.5
2525
27.527.5
3030
32.532.5
3535
37.537.5
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
7282010
Time:Arbutus
County:Grand TraverseDissolved Oxygen and Temperature Profile
Date:July 28, 2010
Time:12:00
Lake:Arbutus (Grand Traverse Co.)July 28, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
125.98.04
5267.56
1026.17.68
1526.18.27
17.5268.04
2025.88.11
22.525.47.21
2522.66.46
27.521.27.17
3019.64.71
32.518.42.69
3516.90.07
37.516.50.02
7282010
11
55
1010
1515
17.517.5
2020
22.522.5
2525
27.527.5
3030
32.532.5
3535
37.537.5
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
8232010
Time:Arbutus
County:Grand TraverseDissolved Oxygen and Temperature Profile
Date:August 23, 2010
Time:11:30
Lake:Arbutus (Grand Traverse Co.)August 23, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
124.77.66
524.78.03
1024.77.35
1524.77.94
17.524.67.79
2024.67.4
22.524.67.15
2524.47.15
27.523.54.09
3020.61.49
32.518.90.4
33.7518.450.23
35180.06
8232010
11
55
1010
1515
17.517.5
2020
22.522.5
2525
27.527.5
3030
32.532.5
33.7533.75
3535
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
DO Profile 1
This graph was created by the CLMP Graph Builder excel file, downloadable atwww.micorps.net/documents/CLMP_Graph_Builders.xls
Download this file to make your own graphs and paste them into this presentation!DO and Temp Profiles for Dead Spider LakeJune 6, 2010
Chart7
11
55
1010
1515
17.517.5
2020
22.522.5
2525
27.527.5
3030
32.532.5
3535
37.537.5
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
Secchi
YearSecchi Measurement
in feet
198020
198121
198222
198323
198424
198525
198624
198723
198822
198921
199020
199121
199222
199323
199424
199525
199624
199723
199822
199921
200020
200121
200222
200323
200424
200525
200624
200723
200822
200921
201020NOTE:
201121
201222Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201323The dotted red line is the overall trend.
201424If you don't have data for a particular year, delete the date and the measurement value.
201525
201624To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201723Then, select "copy".
201822Enter PowerPoint, right-click on a slide and select "paste".
201921
202020
Secchi
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Year
Secchi Disk Transparency (ft)
Secchi Disk Transparency Measurements for Dead Spider Lake from 1980 to 2020
Phosphorus
YearSpring PhosphorusSummer Phosphorus
in micrograms per liter (also known as parts per billion or ppb)
198053
198164
198273
198384
198453
198564
198673
198784
198853
198964
199073
199184
199253
199364
199473
199584
199653
199764
199873
199984
200053
200164
200273
200384
200453
200564
200673
200784
200853
200964
201073NOTE:
201184
201253Enter in your own values as needed in columns A and B and C. The table will autoscale itself so it will continue to hold the data properly.
201364The dotted lines are the overall trend.
201473
201584To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201653Then, select "copy".
201764Enter PowerPoint, right-click on a slide and select "paste".
201873
201984
202053
Phosphorus
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
Spring Phosphorus
Summer Phosphorus
Year
Phosphorus (mg/l)
Spring and Summer Phosphorus Measurements for Dead Spider Lake from 1980 to 2020
Chlorophyll
YearChlorophyll a
in micrograms per liter (also known as parts per billion or ppb)
19804.5
19816
19828
198310
198411
198512
198611
19879
19888
19895
19904.5
19916
19928
199310
199411
199512
199611
19979
19988
19995
20004.5
20016
20028
200310
200411
200512
200611
20079
20088
20095
20104.5NOTE:
20116
20128Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201310The dotted red line is the overall trend.
201411If you don't have data for a particular year, delete the date and the measurement value.
201512
201611To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
20179Then, select "copy".
20188Enter PowerPoint, right-click on a slide and select "paste".
20195
20204
Chlorophyll
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Year
Chlorophyll (mg/l)
Chlorophyll a Measurements for Dead Spider Lake from 1980 to 2020
5152010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:May 15, 2010
Time:12:30
Lake:Dead Spider (Nowhere Co.)May 15, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
113.59.91
513.410.32
1013.410.64
1513.410.66
17.513.410.6
2013.410.53
22.513.410.67
2513.310.75
27.513.310.66
3013.310.71
32.513.310.67
3513.310.62
37.513.210.77
5152010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
6102010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:June 10, 2010
Time:14:00
Lake:Dead Spider (Nowhere Co.)June 10, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
1219.1
5219.3
1020.99.23
1520.89.3
17.520.89.49
2020.79.73
22.520.59.35
2517.99.2
27.516.98.5
3016.47.5
32.515.96.5
3515.55.73
37.515.43.8
6102010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
772010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:July 7, 2010
Time:11:30
Lake:Dead Spider (Nowhere Co.)July 7, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
125.68.08
525.78
1025.77.37
1525.67.47
17.525.67.78
2025.67.96
22.525.58.03
2524.75.92
27.521.25.98
3019.82.75
32.518.61.59
3517.70.21
37.516.80.09
772010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
792010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:July 9, 2010
Time:11:30
Lake:Dead Spider (Nowhere Co.)July 9, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
126.48.49
526.48.52
1025.78.98
1524.89.36
17.524.39.45
2023.89.14
22.523.48.87
2521.28.77
27.519.87.53
3018.46.81
32.517.55.34
3516.82.42
37.516.20.39
792010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
7282010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:August 31, 2010
Time:12:00
Lake:Dead Spider (Nowhere Co.)August 31, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
125.98.04
5267.56
1026.17.68
1526.18.27
17.5268.04
2025.88.11
22.525.47.21
2522.66.46
27.521.22
3019.61.5
32.518.41
3516.90.07
37.516.50.02
7282010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
This graph was created by the CLMP Graph Builder excel file, downloadable atwww.micorps.net/documents/CLMP_Graph_Builder.xls
Download this file to make your own graphs and paste them into this presentation!DO and Temp Profiles for Dead Spider LakeJuly 7, 2010
Chart8
11
55
1010
1515
17.517.5
2020
22.522.5
2525
27.527.5
3030
32.532.5
3535
37.537.5
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
Secchi
YearSecchi Measurement
in feet
198020
198121
198222
198323
198424
198525
198624
198723
198822
198921
199020
199121
199222
199323
199424
199525
199624
199723
199822
199921
200020
200121
200222
200323
200424
200525
200624
200723
200822
200921
201020NOTE:
201121
201222Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201323The dotted red line is the overall trend.
201424If you don't have data for a particular year, delete the date and the measurement value.
201525
201624To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201723Then, select "copy".
201822Enter PowerPoint, right-click on a slide and select "paste".
201921
202020
Secchi
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Year
Secchi Disk Transparency (ft)
Secchi Disk Transparency Measurements for Dead Spider Lake from 1980 to 2020
Phosphorus
YearSpring PhosphorusSummer Phosphorus
in micrograms per liter (also known as parts per billion or ppb)
198053
198164
198273
198384
198453
198564
198673
198784
198853
198964
199073
199184
199253
199364
199473
199584
199653
199764
199873
199984
200053
200164
200273
200384
200453
200564
200673
200784
200853
200964
201073NOTE:
201184
201253Enter in your own values as needed in columns A and B and C. The table will autoscale itself so it will continue to hold the data properly.
201364The dotted lines are the overall trend.
201473
201584To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201653Then, select "copy".
201764Enter PowerPoint, right-click on a slide and select "paste".
201873
201984
202053
Phosphorus
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
Spring Phosphorus
Summer Phosphorus
Year
Phosphorus (mg/l)
Spring and Summer Phosphorus Measurements for Dead Spider Lake from 1980 to 2020
Chlorophyll
YearChlorophyll a
in micrograms per liter (also known as parts per billion or ppb)
19804.5
19816
19828
198310
198411
198512
198611
19879
19888
19895
19904.5
19916
19928
199310
199411
199512
199611
19979
19988
19995
20004.5
20016
20028
200310
200411
200512
200611
20079
20088
20095
20104.5NOTE:
20116
20128Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201310The dotted red line is the overall trend.
201411If you don't have data for a particular year, delete the date and the measurement value.
201512
201611To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
20179Then, select "copy".
20188Enter PowerPoint, right-click on a slide and select "paste".
20195
20204
Chlorophyll
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Year
Chlorophyll (mg/l)
Chlorophyll a Measurements for Dead Spider Lake from 1980 to 2020
5152010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:May 15, 2010
Time:12:30
Lake:Dead Spider (Nowhere Co.)May 15, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
113.59.91
513.410.32
1013.410.64
1513.410.66
17.513.410.6
2013.410.53
22.513.410.67
2513.310.75
27.513.310.66
3013.310.71
32.513.310.67
3513.310.62
37.513.210.77
5152010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
6102010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:June 10, 2010
Time:14:00
Lake:Dead Spider (Nowhere Co.)June 10, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
1219.1
5219.3
1020.99.23
1520.89.3
17.520.89.49
2020.79.73
22.520.59.35
2517.99.2
27.516.98.5
3016.47.5
32.515.96.5
3515.55.73
37.515.43.8
6102010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
772010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:July 7, 2010
Time:11:30
Lake:Dead Spider (Nowhere Co.)July 7, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
125.68.08
525.78
1025.77.37
1525.67.47
17.525.67.78
2025.67.96
22.525.58.03
2524.75.92
27.521.25.98
3019.82.75
32.518.61.59
3517.70.21
37.516.80.09
772010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
792010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:July 9, 2010
Time:11:30
Lake:Dead Spider (Nowhere Co.)July 9, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
126.48.49
526.48.52
1025.78.98
1524.89.36
17.524.39.45
2023.89.14
22.523.48.87
2521.28.77
27.519.87.53
3018.46.81
32.517.55.34
3516.82.42
37.516.20.39
792010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
7282010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:August 31, 2010
Time:12:00
Lake:Dead Spider (Nowhere Co.)August 31, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
125.98.04
5267.56
1026.17.68
1526.18.27
17.5268.04
2025.88.11
22.525.47.21
2522.66.46
27.521.22
3019.61.5
32.518.41
3516.90.07
37.516.50.02
7282010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
This graph was created by the CLMP Graph Builder excel file, downloadable atwww.micorps.net/documents/CLMP_Graph_Builders.xls
Download this file to make your own graphs and paste them into this presentation!DO and Temp Profiles for Dead Spider LakeJuly 29, 2010
Chart9
11
55
1010
1515
17.517.5
2020
22.522.5
2525
27.527.5
3030
32.532.5
3535
37.537.5
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
Secchi
YearSecchi Measurement
in feet
198020
198121
198222
198323
198424
198525
198624
198723
198822
198921
199020
199121
199222
199323
199424
199525
199624
199723
199822
199921
200020
200121
200222
200323
200424
200525
200624
200723
200822
200921
201020NOTE:
201121
201222Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201323The dotted red line is the overall trend.
201424If you don't have data for a particular year, delete the date and the measurement value.
201525
201624To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201723Then, select "copy".
201822Enter PowerPoint, right-click on a slide and select "paste".
201921
202020
Secchi
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Year
Secchi Disk Transparency (ft)
Secchi Disk Transparency Measurements for Dead Spider Lake from 1980 to 2020
Phosphorus
YearSpring PhosphorusSummer Phosphorus
in micrograms per liter (also known as parts per billion or ppb)
198053
198164
198273
198384
198453
198564
198673
198784
198853
198964
199073
199184
199253
199364
199473
199584
199653
199764
199873
199984
200053
200164
200273
200384
200453
200564
200673
200784
200853
200964
201073NOTE:
201184
201253Enter in your own values as needed in columns A and B and C. The table will autoscale itself so it will continue to hold the data properly.
201364The dotted lines are the overall trend.
201473
201584To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201653Then, select "copy".
201764Enter PowerPoint, right-click on a slide and select "paste".
201873
201984
202053
Phosphorus
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
Spring Phosphorus
Summer Phosphorus
Year
Phosphorus (mg/l)
Spring and Summer Phosphorus Measurements for Dead Spider Lake from 1980 to 2020
Chlorophyll
YearChlorophyll a
in micrograms per liter (also known as parts per billion or ppb)
19804.5
19816
19828
198310
198411
198512
198611
19879
19888
19895
19904.5
19916
19928
199310
199411
199512
199611
19979
19988
19995
20004.5
20016
20028
200310
200411
200512
200611
20079
20088
20095
20104.5NOTE:
20116
20128Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201310The dotted red line is the overall trend.
201411If you don't have data for a particular year, delete the date and the measurement value.
201512
201611To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
20179Then, select "copy".
20188Enter PowerPoint, right-click on a slide and select "paste".
20195
20204
Chlorophyll
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Year
Chlorophyll (mg/l)
Chlorophyll a Measurements for Dead Spider Lake from 1980 to 2020
5152010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:May 15, 2010
Time:12:30
Lake:Dead Spider (Nowhere Co.)May 15, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
113.59.91
513.410.32
1013.410.64
1513.410.66
17.513.410.6
2013.410.53
22.513.410.67
2513.310.75
27.513.310.66
3013.310.71
32.513.310.67
3513.310.62
37.513.210.77
5152010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
6102010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:June 10, 2010
Time:14:00
Lake:Dead Spider (Nowhere Co.)June 10, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
1219.1
5219.3
1020.99.23
1520.89.3
17.520.89.49
2020.79.73
22.520.59.35
2517.99.2
27.516.98.5
3016.47.5
32.515.96.5
3515.55.73
37.515.43.8
6102010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
772010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:July 7, 2010
Time:11:30
Lake:Dead Spider (Nowhere Co.)July 7, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
125.68.08
525.78
1025.77.37
1525.67.47
17.525.67.78
2025.67.96
22.525.58.03
2524.75.92
27.521.25.98
3019.82.75
32.518.61.59
3517.70.21
37.516.80.09
772010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
792010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:July 9, 2010
Time:11:30
Lake:Dead Spider (Nowhere Co.)July 9, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
126.48.49
526.48.52
1025.78.98
1524.89.36
17.524.39.45
2023.89.14
22.523.48.87
2521.28.77
27.519.87.53
3018.46.81
32.517.55.34
3516.82.42
37.516.20.39
792010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
7282010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:August 31, 2010
Time:12:00
Lake:Dead Spider (Nowhere Co.)August 31, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
125.98.04
5267.56
1026.17.68
1526.18.27
17.5268.04
2025.88.11
22.525.47.21
2522.66.46
27.521.22
3019.61.5
32.518.41
3516.90.07
37.516.50.02
7282010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
This graph was created by the CLMP Graph Builder excel file, downloadable atwww.micorps.net/documents/CLMP_Graph_Builders.xls
Download this file to make your own graphs and paste them into this presentation!DO and Temp Profiles for Dead Spider LakeAugust 30, 2010
Chart10
11
55
1010
1515
17.517.5
2020
22.522.5
2525
27.527.5
3030
32.532.5
3535
37.537.5
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
Secchi
YearSecchi Measurement
in feet
198020
198121
198222
198323
198424
198525
198624
198723
198822
198921
199020
199121
199222
199323
199424
199525
199624
199723
199822
199921
200020
200121
200222
200323
200424
200525
200624
200723
200822
200921
201020NOTE:
201121
201222Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201323The dotted red line is the overall trend.
201424If you don't have data for a particular year, delete the date and the measurement value.
201525
201624To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201723Then, select "copy".
201822Enter PowerPoint, right-click on a slide and select "paste".
201921
202020
Secchi
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Year
Secchi Disk Transparency (ft)
Secchi Disk Transparency Measurements for Dead Spider Lake from 1980 to 2020
Phosphorus
YearSpring PhosphorusSummer Phosphorus
in micrograms per liter (also known as parts per billion or ppb)
198053
198164
198273
198384
198453
198564
198673
198784
198853
198964
199073
199184
199253
199364
199473
199584
199653
199764
199873
199984
200053
200164
200273
200384
200453
200564
200673
200784
200853
200964
201073NOTE:
201184
201253Enter in your own values as needed in columns A and B and C. The table will autoscale itself so it will continue to hold the data properly.
201364The dotted lines are the overall trend.
201473
201584To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
201653Then, select "copy".
201764Enter PowerPoint, right-click on a slide and select "paste".
201873
201984
202053
Phosphorus
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
Spring Phosphorus
Summer Phosphorus
Year
Phosphorus (mg/l)
Spring and Summer Phosphorus Measurements for Dead Spider Lake from 1980 to 2020
Chlorophyll
YearChlorophyll a
in micrograms per liter (also known as parts per billion or ppb)
19804.5
19816
19828
198310
198411
198512
198611
19879
19888
19895
19904.5
19916
19928
199310
199411
199512
199611
19979
19988
19995
20004.5
20016
20028
200310
200411
200512
200611
20079
20088
20095
20104.5NOTE:
20116
20128Enter in your own values as needed in columns A and B. The table will autoscale itself so it will continue to hold the data properly.
201310The dotted red line is the overall trend.
201411If you don't have data for a particular year, delete the date and the measurement value.
201512
201611To move this graph into powerpoint: Right click on the upper left part of the graph (on the white space).
20179Then, select "copy".
20188Enter PowerPoint, right-click on a slide and select "paste".
20195
20204
Chlorophyll
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Year
Chlorophyll (mg/l)
Chlorophyll a Measurements for Dead Spider Lake from 1980 to 2020
5152010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:May 15, 2010
Time:12:30
Lake:Dead Spider (Nowhere Co.)May 15, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
113.59.91
513.410.32
1013.410.64
1513.410.66
17.513.410.6
2013.410.53
22.513.410.67
2513.310.75
27.513.310.66
3013.310.71
32.513.310.67
3513.310.62
37.513.210.77
5152010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
6102010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:June 10, 2010
Time:14:00
Lake:Dead Spider (Nowhere Co.)June 10, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
1219.1
5219.3
1020.99.23
1520.89.3
17.520.89.49
2020.79.73
22.520.59.35
2517.99.2
27.516.98.5
3016.47.5
32.515.96.5
3515.55.73
37.515.43.8
6102010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
772010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:July 7, 2010
Time:11:30
Lake:Dead Spider (Nowhere Co.)July 7, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
125.68.08
525.78
1025.77.37
1525.67.47
17.525.67.78
2025.67.96
22.525.58.03
2524.75.92
27.521.25.98
3019.82.75
32.518.61.59
3517.70.21
37.516.80.09
772010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
792010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:July 9, 2010
Time:11:30
Lake:Dead Spider (Nowhere Co.)July 9, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
126.48.49
526.48.52
1025.78.98
1524.89.36
17.524.39.45
2023.89.14
22.523.48.87
2521.28.77
27.519.87.53
3018.46.81
32.517.55.34
3516.82.42
37.516.20.39
792010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
7282010
Time:Dead Spider
County:NowhereDissolved Oxygen and Temperature Profile
Date:August 31, 2010
Time:12:00
Lake:Dead Spider (Nowhere Co.)August 31, 2010
Depth (ft.)Temp. (oC)D.O. (mg/l)
125.98.04
5267.56
1026.17.68
1526.18.27
17.5268.04
2025.88.11
22.525.47.21
2522.66.46
27.521.22
3019.61.5
32.518.41
3516.90.07
37.516.50.02
7282010
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
00
D.O. (mg/l)
Temp. (oC)
Dissolved Oxygen (mg/l) / Temperature (oC)
Depth (feet )
The MiCorps program began in 2003 under an executive order of then governor Granholm.*Address quality assurance as a theme that underlies MiCorps.the four primary goals of the CLMP - 1. baseline information and trends on a large number of lakes. - 2. educate riparians and lake users about lakes, water quality and lake management.
Continued on next slide.
- 3. Build pubic support for lake management and lake quality protection at the local level and - 4. Increase baseline data for lakes state-wide.
Thus, we are attempting to increase the level of knowledge on lake water quality and lake management within the lake community.
As well as to increase the level of reliable data on lakes in Michigan.
CLMP focuses on 4 parameters to monitor as primary trophic state indicators (or indicators of lake productivity)- water clarity or Transparency (Secchi Disk)- plant nutrient Total Phosphorus (spring and late-summer)- plant pigment Chlorophyll a- Dissolved Oxygen and Temperature
Recently the program added Aquatic Plant ID and Mapping as a biological trophic state indicator.For Sherwood Lake in Oakland County there has been a gradual decrease in water clarity since 1980. --- importance of long term trends!!! This slight change would be difficult to notice without monitoring and recording the data. But the trend is clear so it gives the lake time to do something about it.For Sherwood Lake in Oakland County there has been a gradual decrease in water clarity since 1980. --- importance of long term trends!!! This slight change would be difficult to notice without monitoring and recording the data. But the trend is clear so it gives the lake time to do something about it.For Sherwood Lake in Oakland County there has been a gradual decrease in water clarity since 1980. --- importance of long term trends!!! This slight change would be difficult to notice without monitoring and recording the data. But the trend is clear so it gives the lake time to do something about it.