1. How Healthy is Moreton Bay? Ivan Holland, Francis Pantus, Andrew Watkinson, Dan Wruck & Bill Dennison CRC for Coastal Zone Estuary & Waterway Management Adrian Jones & Angela Grice

2. EHMP Project Team CRC for Coastal Zone Estuary & Waterway Management Angela Grice Ivan Holland Paul Lutz Andrew Moss Mark Davidson John Ferris Michelle Leutton Myles Waller Ray Clark Darren Renouf Chris Ovenden Nathan Johnston Phil Thornton Nicola Udy Bill Dennison Adrian Jones Courtney Henderson Volunteers Francis Pantus Peter Toscas Tom Taranto Dan Wruck

3. Presentation Outline Introduction to Moreton Bay and its RiversIntroduction to Moreton Bay and its Rivers Historical conditionsHistorical conditions Current pressures on the ecosystemCurrent pressures on the ecosystem The Vision for the futureThe Vision for the future Monitoring ecosystem healthMonitoring ecosystem health Wastewater treatment initiativesWastewater treatment initiatives Health of the RiversHealth of the Rivers Health of Moreton BayHealth of Moreton Bay –Sediments –Nutrients –Lyngbya Future Strategies, Research & CommunicationFuture Strategies, Research & Communication

4. Moreton Bay is a productive coastal embayment Moreton Bay shows relatively high concentrations of phytoplankton and suspended solidsMoreton Bay shows relatively high concentrations of phytoplankton and suspended solids MoretonBay

5. Dunwich Redcliffe BribieIsland LuggagePoint MoretonIsland BrisbaneRiver LoganRiver PineRiver CabooltureRiver Moreton Bay Moreton region has 2 million people and is the fastest growing region in the countryMoreton region has 2 million people and is the fastest growing region in the country Moreton Bay receives input from Brisbane, Logan, Caboolture and Pine RiversMoreton Bay receives input from Brisbane, Logan, Caboolture and Pine Rivers The Brisbane River has theThe Brisbane River has the -largest catchment of all regions -highest population density -highest sewage inputs

6. Brisbane River has the largest catchment Brisbane R. catchment extends to Great Dividing RangeBrisbane R. catchment extends to Great Dividing Range Includes 4 major subcatchmentsIncludes 4 major subcatchments Upper Brisbane,Upper Brisbane, StanleyStanley LockyerLockyer BremerBremer

7. Residence times are highly variableResidence times are highly variable Rivers have the longest residence timeRivers have the longest residence time Short residence times near inletsShort residence times near inlets Bramble Bay has the longest residence time within the bayBramble Bay has the longest residence time within the bay Residence time affects the dilution of nutrients discharged into the waterways

8. The river estuaries are BROWN iological diversity low esuspended ver-loaded aste water utrient laden

9. Moreton Bay is BLUE iological diversity high high ow nutrients nimpacted nergetic

10. Historically, the rivers were cleaner 010203040 0 100 50 150 250 200 Turbidity Aug 1918 July 1917 Oct 1997 Colleges Crossing Moreton Bay Jewfish caught in Brisbane River Swimming enclosure at East Brisbane Historically, the rivers had: much lower inputs of sewage and catchment runoffmuch lower inputs of sewage and catchment runoff extensive vegetation on river banksextensive vegetation on river banks water clarity was much betterwater clarity was much better large fish such as cod, black swans and aquatic plants existed in Brisbane Riverlarge fish such as cod, black swans and aquatic plants existed in Brisbane River

11. Historically the Western Bay was relatively pristine Within Moreton Bay, dugongs, sea turtles and extensive seagrass beds were once present on the urbanised western shores, but are now largely restricted to the well flushed eastern regions.

12. Population expansion in the region over the past half century is one of the most rapid in the world and provides one of the major pressures to ecosystem health Population Growth is a major pressure

13. 1860190019401980 100 300 200 Land area 000’s ha Increasing land-use Sown pasture Cropped land and fertilizer application 191019501990 5 10 15 20 Fertilizer 000’s t yr -1 N P K

14. Urban areas are the largest source of Turbidity Undisturbed Pasture Cultivated Rural residential Urban pervious Urban impervious 0 200 400 600 8001000 TSS (kg ha -1 yr -1 )

15. Sewage discharges concentrated in Brisbane River & Bramble Bay Largest sewage discharge = Luggage Pt. at mouth of Brisbane R.Largest sewage discharge = Luggage Pt. at mouth of Brisbane R. Oxley Creek = second largestOxley Creek = second largest 3 significant discharges into Pine Rivers and Hayes Inlet from Pine Rivers, Redcliffe and Brisbane City3 significant discharges into Pine Rivers and Hayes Inlet from Pine Rivers, Redcliffe and Brisbane City Multiple minor discharges scattered throughout tidal reachesMultiple minor discharges scattered throughout tidal reaches

16. Multiple sewage discharges in region stimulated large regional study Concern about expanding population and impacts of sewage dischargesConcern about expanding population and impacts of sewage discharges 6 local councils formed regional study group, obtained commonwealth & state matching funds6 local councils formed regional study group, obtained commonwealth & state matching funds 1997-1998 large intensive study conducted1997-1998 large intensive study conducted Developed Vision & monitoring strategyDeveloped Vision & monitoring strategy

17. “Moreton Bay and its waterways will, by 2020, be a healthy ecosystem supporting the livelihoods and lifestyles of residents and visitors”

18. Monitoring is an essential tool for effective preservation & remediation of waterways Research and monitoring provides the information to determine the most effective remediation options It determines the ecological outcomes of nutrient removal from sewage, stormwater controls and other management actions

19. Monitoring Ecosystem Health Indicators of Ecosystem Health loss or recovery of seagrasses, mangroves and corals

20. Monitoring Ecosystem Health Indicators of Ecosystem Health loss or recovery of seagrasses, mangroves and corals outbreaks of Lyngbya

21. Monitoring Ecosystem Health Indicators of Ecosystem Health loss or recovery of seagrasses, mangroves and corals outbreaks of Lyngbya the extent of sewage plumes

22. Monitoring Ecosystem Health Indicators of Ecosystem Health loss or recovery of seagrasses, mangroves and corals outbreaks of Lyngbya the extent of sewage plumes nutrient responses of phytoplankton communities

23. Monitoring Ecosystem Health Indicators of Ecosystem Health loss or recovery of seagrasses, mangroves and corals outbreaks of Lyngbya the extent of sewage plumes nutrient responses of phytoplankton communities occurrence of nuisance macroalgae e.g. sea lettuce

24. Monitoring Ecosystem Health Indicators of Ecosystem Health loss or recovery of seagrasses, mangroves and corals outbreaks of Lyngbya the extent of sewage plumes nutrient responses of phytoplankton communities occurrence of nuisance macroalgae e.g. sea lettuce status of turtles and dugongs

25. Monitoring Ecosystem Health Indicators of Ecosystem Health loss or recovery of seagrasses, mangroves and corals outbreaks of Lyngbya the extent of sewage plumes nutrient responses of phytoplankton communities occurrence of nuisance macroalgae e.g. sea lettuce status of turtles and dugongs water quality – –phytoplankton biomass – –nitrogen and phosphorus – –turbidity

26. Sewage Plume Mapping identifies zones of human impact Macroalgae takes up sewage nutrientsMacroalgae takes up sewage nutrients Chambers deployed around bay and riversChambers deployed around bay and rivers Allows mapping of extent of sewage plumeAllows mapping of extent of sewage plume

27. Plume mapping technique identifies different nutrient sources Highest sewage concentration is in middle reaches of the rivers due to inputs and lack of tidal flushingHighest sewage concentration is in middle reaches of the rivers due to inputs and lack of tidal flushing Plume concentrated in western bayPlume concentrated in western bay Sewage plume from rivers is seasonally variableSewage plume from rivers is seasonally variable September 1997 March 1998 June 2000

28. Monitoring affects management decisions

29. Monitoring has identified zones

30. River estuaries: moderately to highly degraded Pine River Brisbane River Logan River Bremer River Caboolture River Moderatedegradation Highdegradation Nutrients & sediments from forestry, agricultural and urban areasNutrients & sediments from forestry, agricultural and urban areas Algal booms, high nutrientsAlgal booms, high nutrients Nutrient uptake means no sewage nitrogen impact on Deception BayNutrient uptake means no sewage nitrogen impact on Deception Bay Urbanised & industrial catchmentUrbanised & industrial catchment High turbidity & nutrientsHigh turbidity & nutrients Urbanised & agricultural catchmentUrbanised & agricultural catchment Aquaculture prominentAquaculture prominent High sediment & nutrient loadsHigh sediment & nutrient loads Extensive vegetation clearedExtensive vegetation cleared Low plankton species diversityLow plankton species diversity Extremely degradedExtremely degraded Very high nutrient loadingsVery high nutrient loadings High bacterial productivityHigh bacterial productivity Long residence timeLong residence time

31. Rivers receive inputs from a variety of point and non point sources Sewage Outfall Sewage Treatment Plant Abatoir Outfall Golf course fertiliser runoff and gravel extraction plant Grazing - manure Aquaculture Primary inputs are nutrients (nitrogen & phosphorus) and suspended solidsPrimary inputs are nutrients (nitrogen & phosphorus) and suspended solids

32. Rivers are nutrient over-enriched High concentrations of nutrients often results in blooms of single species – reducing diversityHigh concentrations of nutrients often results in blooms of single species – reducing diversity Benthic microalgal bloom on Brisbane River sediment Jellyfish bloom in response to high plankton biomass in Pine River Aquatic weed bloom in upper Brisbane River Phytoplankton bloom in Caboolture River

33. Rivers used for commercial and recreational purposes Trawling in Brisbane R Skiing in rivers Fishing at Luggage Pt Outfall Swimming in rivers Port of Brisbane

34. River Estuaries Report Card 2000 Dunwich Redcliffe BribieIsland LuggagePoint MoretonIsland BrisbaneRiver LoganRiver PineRiver CabooltureRiver Caboolture River CWorsened Unchanged Improved A excellent B good C fair D poor F fail Pine Rivers D Brisbane River D Bremer River F Logan River D

35. River estuaries Moreton Bay Pristine and diverse marine environments Highly impacted river estuaries

36. What are the impacts on Moreton Bay? SedimentsSediments –50,000 truck loads of mud into Brisbane River every year NutrientsNutrients –500 olympic swimming pools of treated sewage effluent every day –1/3 Brisbane River flow is sewage effluent LyngbyaLyngbya –3000 football fields of seagrass covered by Lyngbya in Moreton Bay

37. Sediments impact West Moreton Bay model output simulating May 96 flood

38. With sediments come nutrients % Mud Total N (mg L -1 )

39. Sediment re-suspension Bramble Bay Nearbed wave velocities (cm s -1 ) Water depth (m) 0 20 30 40 10 5.5 6.5 7.5 8.5 Tide Wind February 3 January 27 January 20  wind waves and tidal currents

40. Suspended solids Seagrass distribution Sediments affect seagrass distribution

41. Reduced water clarity in Waterloo Bay due to river inputs and resuspensionReduced water clarity in Waterloo Bay due to river inputs and resuspension Last remaining healthy seagrass beds in Western Moreton BayLast remaining healthy seagrass beds in Western Moreton Bay Sensitive region with variable water qualitySensitive region with variable water quality

42. Seagrass loss has occurred due to Logan River plume 19891996 Logan R First seagrass loss in 1992First seagrass loss in 1992 Recovery 1994-1998Recovery 1994-1998 Disappeared since 1998Disappeared since 1998 Russell Is Macleay Is

43. Seagrass loss is ongoing Deception Bay (97)Deception Bay (97) Long Island (92, recover 98)Long Island (92, recover 98) Behm’s Creek (96)Behm’s Creek (96) Northern Broadwater (00)Northern Broadwater (00) Lyngbya majuscula bloomLyngbya majuscula bloom Loss reduces habitat

44. Are sediments affecting corals too? Scoping surveys shown dramatic shift from dead to live coral cover with distance from mainland in Waterloo BayScoping surveys shown dramatic shift from dead to live coral cover with distance from mainland in Waterloo Bay Intensive survey will be conducted each winterIntensive survey will be conducted each winter Favia speciosa. Waterloo Bay

45. Excessive nutrients cause algal blooms Ulva bloom Algal bloom 1000 ML per day

46. Bramble Bay is nutrient laden Phytoplankton blooms Mangroves full with nutrients Sediments release nutrients Mangroves Phytoplankton Phytoplankton levels

47. Lyngbya majuscula Toxic marine cyanobacterium Naturally occurring but proliferated in N. Deception Bay Bulldozers needed to remove rotting, stinking mass Human health problems Ecosystem health problems – seagrass loss, repels fish

48. Lyngbya has rapid growth

49. Canal development Melaleuca Intact pine forest Cleared pine forest Soils samples collected from various sites in the Pumicestone Passage and Deception Bay region Sandstone Point Shirley Creek Mangrove Coffeerock

50. Lyngbya at Amity & Moreton Banks Occurs naturally on reefs and seagrass bedsOccurs naturally on reefs and seagrass beds Large amounts at Moreton / Amity Banks last summerLarge amounts at Moreton / Amity Banks last summer Potential threat to main dugong & turtle grazing areasPotential threat to main dugong & turtle grazing areas Less toxic than in Deception Bay, oyster impact unknownLess toxic than in Deception Bay, oyster impact unknown

51. Biotic interactions Siganus Bursatella Stylocheilus Lyngbya Stylocheilus Repels fishes, turtles and dugongs Repels fishes, turtles and dugongs

52. Clean, clear water No algal blooms Best in the Bay Eastern & Northern Moreton Bay

53. Eastern & Northern Moreton Bay B-/A Most pristine area of Moreton Bay extensive seagrass beds, mangroves, & coral reefs supporting huge diversity of marine life dugongs, turtles, whales, dolphins, fish Excellent water quality Tidal flushing – 1 day

54. Turtles and dugongs Dugongs and turtles now concentrated on Eastern side Dugongs Population ~ 900 7 deaths since Jun 99 Turtles Population > 10,000 Green Turtle Fibropapilloma Disease 70% affected in S. Bay 40% affected in Peel Is. & reefs 20% affected at Moreton Banks

55. Eastern Banks Well-flushedWell-flushed Extensive seagrass beds supporting dugongs & turtlesExtensive seagrass beds supporting dugongs & turtles LyngbyaLyngbya B-B-B-B- Bramble Bay Bramble Bay Sewage inputsSewage inputs High nutrients and turbidityHigh nutrients and turbidity Ulva bloomsUlva blooms Historical seagrass lossHistorical seagrass loss High sediment nutrient fluxesHigh sediment nutrient fluxes F Waterloo Bay Some coralSome coral Stable seagrass bedsStable seagrass beds Stormwater controlStormwater control C+C+C+C+ Northern Deception Bay No improvement No improvement Declining seagrass Declining seagrass Lyngbya outbreak Lyngbya outbreak D-D-D-D- Southern Deception Bay No seagrass recoveryNo seagrass recovery High turbidityHigh turbidity D Southern Bay Extensive mangrove forestsExtensive mangrove forests Sewage inputsSewage inputs Seagrass lossesSeagrass losses Lack of mangrove recovery from hail damageLack of mangrove recovery from hail damage C-C-C-C- B Central Bay High sediment nutrientsHigh sediment nutrients Muddy sedimentsMuddy sediments Relatively good water qualityRelatively good water quality Northern Bay Well-flushed by oceanic watersWell-flushed by oceanic waters Intact denitrificationIntact denitrificationA Moreton Bay Report Card 2000 WorsenedUnchangedImproved A excellent B good C fair D poor F fail

56. STRATEGY RESEARCH MONITORING Riparian Rehabilitation Sewage Treatment Upgrades Stormwater Quality Improvement Device To protect and restore waterways -

57. 1. Strategy Reduce nutrient loads (particularly nitrogen) by sewage treatment upgrades. Reduce sediment and nutrient loads with stormwater controls, riparian revegetation, and improved catchment management

58. 2. Research and 3. Monitoring: Investigate causes and nature of environmental degradation, as well as investigating restoration techniques – – Ecological processes in Bremer River – – Sediment sourcing of Moreton Bay – – Riparian rehabilitation task – – Waterloo bay intensive study CRC for Coastal Zone Estuary & Waterway Management To protect and restore waterways -

59. Communication Quarterly newsletters Quarterly newsletters Annual report card Annual report card Healthy Waterways website Healthy Waterways website Coastal CRC website Coastal CRC website Scientific papers Scientific papers Scientific reports Scientific reports Monitoring Technique Video Monitoring Technique Video www.botany.uq.edu.au/marbot/www.botany.uq.edu.au/marbot/ (research) www.healthywaterways.qld.gov.auwww.healthywaterways.qld.gov.au (management) www.coastal.crc.org.au/ehmpwww.coastal.crc.org.au/ehmp (monitoring)

61. Program Contributors All major contributors of nitrogenAll major contributors of nitrogen 8 councils8 councils Industry groupsIndustry groups EHMP teamEHMP team Brisbane City CouncilBrisbane City Council Ipswich City CouncilIpswich City Council Redcliffe City CouncilRedcliffe City Council Logan City CouncilLogan City Council Redland Shire CouncilRedland Shire Council Caboolture Shire CouncilCaboolture Shire Council Pine Rivers Shire CouncilPine Rivers Shire Council Gold Coast City CouncilGold Coast City Council Australian Meat HoldingsAustralian Meat Holdings Incitec FertilisersIncitec Fertilisers Amcor CartonboardAmcor Cartonboard Q MeatQ Meat CRC for AquacultureCRC for Aquaculture