Ecosystem Dynamics @ Penrith Lakes

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Year 11 Biology Ecosystem Dynamics @ Penrith Lakes

(Population Dynamics - includes depth study modelling) Key Inquiry Question: What effect can one species have on the other species in a community? Students:● investigateanddeterminerelationshipsbetweenbioticandabioticfactorsinanecosystem,

including:(ACSBL019)- theimpactofabioticfactors(ACSBL021,ACSBL022,ACSBL025)- theimpactofbioticfactors,includingpredation,competitionandsymbioticrelationships

(ACSBL024)- theecologicalnichesoccupiedbyspecies(ACSBL023)- predictingconsequencesforpopulationsinecosystemsduetopredation,competition,

symbiosisanddisease(ACSBL019,ACSBL020)- measuringpopulationsoforganismsusingsamplingtechniques(ACSBL003,ACSBL015)

● explainarecentextinctionevent(ACSBL024)● investigatechangesinpastecosystemsthatmayinformourapproachtothemanagementoffutureecosystems●.investigatepracticesusedtorestoredamagedecosystems,CountryorPlace,e.g.:

- miningsites- landdegradationfromagriculturalpractices

Name ________________________

Inquiry Question: How healthy is the Ecosystem at Penrith Lakes?

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STATION 1 Abiotic Factors

Use water testing kit to collect abiotic data for this site.

Site: Final Detention Basin

Conditions: Date: Time:

Factor Equipment Used / Units Your small group results

Average results for your group

1. Phosphate (Nutrient) - Half fill tube. Dissolve tablet.

Wait 5 mins. Compare water to chart.

Test tablet kit - ppm (Parts per million)

2. Water pH - (Blue box) Fill tube. 3cm of paper in tube. Wait 1 min. Compare paper to chart.

Universal Indicator Paper - a number

3. Turbidity Turbidity Tube - NTU’s (Nephelometric Turbidity Units)

4. Water Temperature Digital Thermometer - oC (Degrees Celsius)

5. Dissolved Oxygen - mg/l is the reading on DO meter.

Dissolved Oxygen Meter (Milligrams per Litre) mg/L mg/L

Use conversion chart to get % sat.Conversion Chart - Temp, mg/L and %

( % saturation )%

saturation%

saturation6. Conductivity or Total Dissolved Solids (Salts)

Total Dissolved Solids (TDS) Scan- ppm (Parts per million)

7. LightLight / Lux Meter - Lux

8. Slope Clinometer - Degrees (o)

9. Wind exposure (speed)Anemometer - kph

10. Water Depth General knowledge of lakes. 4m

11. Visual PollutionVisual Assessment. Use your eyes.

Circle the appropriate result:

LOW MEDIUM HIGH

12. Water Source Groundwater and run-off

STATION 2 Dipnetting - Invertebrate population sampling - (Results given in wrap up)

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STATION 3 Waterbird Observation

Waterbird Counts at 5 survey sites ( Teacher will help you fill this out)

Bird Species / Site No. 1 2 3 4 5* Abundance Distribution

1. Australian Grebe 12. Australian Wood Duck 3 4 6 123. Black Swan4. Blackwinged Stilt 25. Dusky Moorhen6..Eurasian Coot 47. Great Egret8. Little Black Cormorant9. Little Pied Cormorant 6 210 Pacific Black Duck 811.Pelican 1 112 Purple Swamphen 413. Royal Spoonbill14.White-faced Heron 115. Other:_______________

Total Abundance per Site 11 13 24Total Species per Site 3 5 4

1. On your walk - Look at the bird pictures. 2. Keep a tally of the number of birds sighted for each species. 3. Using column 5, fill in the bird numbers seen today. The teacher will guide you. Use this to work

out abundance/distribution and then a habitat/food supply point score.

Pelican Little Pied Cormorant

Little Black Cormorant

Australian Grebe

DIVERS

Eurasian Coot

Pacific Black Duck Dusky Moorhen

Australian Wood Duck

SWIMMERS

Black Swan

Great Egret

White-faced Heron

Purple Swamphen

WADERSRoyal Spoonbill

Black winged Stilt

Habitat total bird score?

0-10 Poor

11-18 Fair

19 - 25 Good

>25 Excellent

Tally :

Tally :Tally :Tally :

Tally : Tally :

Tally :

Bird SpeciesCircle

points for birds seen

today1. Grebe 42. Wood Duck 2

3. Black Swan 54. Stilt 5

5. Dusky Moorhen 36. Eurasian Coot 37. Great Egret 58. Black Cormorant 49. Pied Cormorant 4

10.Black Duck 311.Pelican 512.Purple Swamphen 413.Royal Spoonbill 514.Heron 515.Other 5

Total point score TODAY

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Wrap Up

PhosphateandWaterSource•Phosphateisanessentialnutrientforplantgrowth.Itisaplantfood.Toomuchfoodcancauseproblems.• hurbanrunoff(mainwatersourceforthelakes)g hphosphatelevels(>2)ghriskofbluegreen algaeoutbreaks.Note:Aseriesoflargedetentionbasins/lakeshasbeenconstructedupstreamsothattheplantsinthosecanremoveexcessphosphate(andotherimpurities)fromthewaterpriortoitbeingallowedintothemainlakes.•Farmingpast:hphosphatelevels(>2)ghalgaeg iaquaticplantsgiD.O.giinvertebrates.

pHandConductivity/Salinity • pHisameasureofthehydrogenionconcentrationinwater.Mostaquaticorganismscanonlysurviveinthe6-9pHrange.LowpHvaluesareacidicandkillaquaticlife.• Conductivity/Salinityistheamountofdissolvedsaltspresentinthewater.Highersaltlevelsghdehydrationoffreshwaterorganisms.

TemperatureandLight •Watertemperatureisdirectlydependentonsunlightavailability,airtemperatureandturbidity.•Temperatureaffectsvitalbiochemicalprocesseswithinaquaticorganismsandultimatelytheirsurvival.•Mostorganismscanonlytolerateanarrowtemperaturerange.

- 10-30°C=optimalrangeformacroinvertebrates.- Inwarmerwater(20to30°C),therateofphotosynthesisandplantgrowthincreases.

Animalactivityalsoincreases.•Farmingpast:hturbidityghheatabsorptionghwatertempsgiaquaticorganisms.

Analysis of abiotic and biotic key relationshipsTurbidity,LightandDissolvedOxygen • The[inalbasinhaslowturbidity(abioticfactor).•Anhsunlight(abioticfactor)ghaquaticplants(bioticfactor)ghD.O.(abioticfactor)ghinvertebrates/aquaticlife(bioticfactor). Note:aminimumof60%D.Oisessentialforgillbreatherssuchasdragon[lynymphs.•Farmingpast:hturbiditygisunlightgiaquaticplantsgiD.O.giinvertebrates.

A Key Submerged Aquatic PlantSpecies-Ribbonweed •hsunlight+lowturbiditygRibbonweedhdissolvedoxygenghaquaticanimals.

• Long strands provide shelter for [ish andfoodforsnailsandotherinvertebrates.

•Rootstakeupnutrients,suchasphosphate.•Thepresenceofribbonweedindicatesthewaterbodyisingoodcondition.

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Very High Biodiversity

Summary - Low turbidity High oxygen Low salinity Low phosphates High native biodiversity

Before White Settlement - Pristine ecosystem (hypothetical measurements)

Overall Rating Excellent Good Fair Poor

Score : 48 40+ 32 - 39 31 - 20 less than 20

Turbidity (clarity): <10 ntu pH : 7

<10 ntu 10 - 20 ntu 20 - 50 ntu >50 ntu 6.5 - 8.5 8.6 - 9.0 6.0 - 6.4 <6 or >9.0

8 4 2 0 8 6 4 0

Light: 25,000 lux Conductivity (salts):80 ppm

> 15,000 10k - 15k 5k - 9,999 < 5,000 <250 ppm 251-650 ppm 651-1000 ppm >1000 ppm

8 4 2 0 8 6 4 0

Dissolved Oxygen: 90% Phosphate (nutrients): 0.5 ppm

>60% 50% - 60% 40% - 49% <40 % 0 - 1 ppm >1 - 2 ppm >2 - 3 ppm >3 - 4 ppm

8 6 2 0 8 6 2 0

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Yourturn.Writeinthespace-HighorLow

During the Farming Era

Score : 12 40+ 32 - 39 31 - 20 less than 20

Turbidity (clarity): 250 ntu pH : 8.6

<10 ntu 10 - 20 ntu 20 - 50 ntu >50 ntu 6.5 - 8.5 8.6 - 9.0 6.0 - 6.4 <6 or >9.0

8 4 2 0 8 6 4 0

Light: 3,800 lux Conductivity (salts): 950 ppm

8 4 2 0 8 6 4 0

Dissolved Oxygen: 25% Phosphate (nutrients): 2.5 ppm

>60% 50% - 60% 40% - 49% <40 % 0 - 1 ppm >1 - 2 ppm >2 - 3 ppm >3 - 4 ppm

8 6 2 0 8 6 2 0

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Yourturn.Writeinthespace-HigherorLower

After Quarrying - Now and the Future

Todays results

Score : 40+ 32 - 39 31 - 20 less than 20

Turbidity (clarity): _____________ ntu pH : _________

<10 ntu 10 - 20 ntu 20 - 50 ntu >50 ntu 6.5 - 8.5 8.6 - 9.0 6.0 - 6.4 <6 or >9.0

8 4 2 0 8 6 4 0

Light: ______________ lux Conductivity (salts): __________ ppm

8 4 2 0 8 6 4 0

Dissolved Oxygen: ___________ % Phosphate (nutrients): _________ ppm

>60% 50% - 60% 40% - 49% <40 % 0 - 1 ppm >1 - 2 ppm >2 - 3 ppm >3 - 4 ppm

8 6 2 0 8 6 2 0

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Step 3A pollution indicator graph. Use your Signal Score and Taxa Richness to plot a point on the graph below.

0 6 12 Taxa Richness (A)

Quad 3 - Some pollution

Quad 1 - Very Good Ecosystem

Quad 4 - Toxic, harsh Ecosystem

Quad 2 - Fair to good Ecosystem

Conclusions from waterbug sampling

Name, picture & Sensitivity Rating

No.Bugs

Circle S.R.

Name, picture & Sensitivity Rating

No.Bugs

Circle S.R.

Back Swimmer 4

Water Beetle 3

Caddisfly Larvae 6

Water Boatman 4

Damselfly Nymph 6

Water Mite 5

Dragonfly Nymph 6

Water Scorpion 3

Freshwater Shrimp 6

Water Spider 4

Giant Water Bug 4

Water Treader 4

Leech 3 Worm 2

Mayfly Nymph 7

Mosquito Fish (vertebrate)

Pond Snail 3 Other

Total Bug SPECIES caught =(This is a TAXA RICHNESS)

A Total Sensitivity Rating (S.R.) = This is a POLLUTION INDEX

Calculate a SIGNAL SCORE (S.S.). Signal Score = Pollution Index (B) ➗ Taxa Richness (A)

S.S. =

��

Signal Score Pollution Rating

> 3.5 Healthy Habitat

2.8 to 3.5 Mild

2.1 to 2.7 Moderate

< 2.1 Severe

Interpreting your results using an UNWEIGHTED Signal Score.

Step 2Using your signal score, determine a pollution rating. Use the table below.

Step 1 - With the help of the instructing teacher-fill out the table of the total waterbug survey results.

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KeystoneSpecies• Submergedaquaticplants

- E.g.RibbonweedTheseplantstakenutrientsoutofthewater.Whentheycarryoutphotosynthesistheoxygengoesdirectlyintothewater.Theplantsareasourceoffood(aproducer)andoxygen.

A local extinction event - due to predation

Green and Gold Bell FrogMosquito Fish

MosquitoFish

* Broughtintocontrol______________________.

* Eatsarangeof_____________________________

* Responsiblefor____________________loss(frogs).

* Tolerates____________________waterquality.

* _____________________________quickly.

* Dif[icultto_____________________________.

SummaryfromFarmingtoNow

BIOTIC

Pastfarming NowandFuture

Edgeplantsdominate

Lowoxygenwaterbugs

Wadingbirdsdominate

FewMosquitoFish (In warmer months)

Lowbiodiversity

ABIOTIC

Highphosphates

Highturbidity

Lowdissolvedoxygen

Highsalinity

FoodWeb-Placetheletterofthe3missingspecies

B-BassA-Shrimp C-Ribbonweed

Decomposers

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General note taking on the day

___________________________________________________________________________

Ecosystem Dynamics @ Penrith Lakes

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