Presentation is loading. Please wait.

Presentation is loading. Please wait.

Ecological assessment methods for lakes, Norway Odd Terje Sandlund Input from M. Mjelde (NIVA) and colleagues at NINA

Published byMeredith Gray Modified over 8 years ago

Similar presentations

Presentation on theme: "Ecological assessment methods for lakes, Norway Odd Terje Sandlund Input from M. Mjelde (NIVA) and colleagues at NINA"— Presentation transcript:

1 Ecological assessment methods for lakes, Norway Odd Terje Sandlund Input from M. Mjelde (NIVA) and colleagues at NINA odd.t.sandlund@nina.no

2 www.nina.no Agenda  Background  The face of HyMo in Norwegian lakes  Quality elements in relation to HyMo  Macrophytes  Zoobenthos  Fish  Present and future research directions © OT Sandlund

3 www.nina.no Background  # lakes >0.04 km 2 : 39 000  # HP-regulated lakes/reservoirs: 905  0-10 Mm 3 : ~375  10-100 Mm 3 : ~388  100-1000 Mm 3 : ~133  >1000 Mm 3 : ~9  Most regulated lakes are alpine/subalpine  Nearly all contain brown trout

4 www.nina.no Water level fluctuations Natural lake Urban water supply reservoir Regulated lake (traditional operation)

5 www.nina.no Macrophyte index, Hellsten et al. 2011  WIc – developed in collaboration between Fi, Se, No  Based on the ratio between sensitive and tolerant species  Provides one value (between +100 and -100) for each water body N S - # sensitive spp. present N T - # tolerant spp. present N - total # spp.

6 www.nina.no 10, 25, 50, 75, 90 percentiles indicated. Sorted by the 75 percentile WISER: Hellsten et al. 2011

7 www.nina.no Species sensitive to water drawdown Species tolerant to water drawdown Hellsten & Mjelde (2009)

8 www.nina.no WIc for large oligotrophic, low-calcium and periodically ice covered lakes WISER: Hellsten et al. 2011

9 www.nina.no Reference value: WIc(i) = 29 (75th percentile of the index values for natural and semi-natural Finnish and Norwegian lakes) High/good boundary: WIc(i) = 10 (25th percentile of the index values for natural and semi-natural lakes) Good/moderate boundary: WIc(i) = -20 (corresponds to a winter drawdown of 3.4-3.5m, when Isoetes lacustris disappears) WISER: Hellsten et al. 2011

10 www.nina.no Macroinvertebrates in regulated lakes Lotic Lentic Ephemeroptera Plecoptera Petrin et al. in revision ß-diversity

11 www.nina.no Tolerance limits for important fish prey in HP mountain reservoirs (Rognerud & Brabrand 2010) Organism Tolerance limit, regulation amplitude Gammarus lacustris6 m Gastropods8 m Trichoptera larvae10-12 m Chironomid larvaeNo tolerance limit detected Lepidurus arcticus No tolerance limit detected, but timing of reservoir filling in spring essential EurycercusNo tolerance limit detected BytrotrephesNo tolerance limit detected Daphnia sp.No tolerance limit detected

12 www.nina.no  CPUE trout in unregulated vs. regulated lakes:  F 1,363 =10,54, t=-3,24, p=0,001  But with inclusion of other factors:  Allo-/sympatry + lake area + air temp in July + # days with snow  Regulation excluded from the model –  allo-/sympatry dominant factor Brown trout in lakes: Initial analysis (CPUE as biomass) (Helland et al. 2010) Population abundance (measured as gill net CPUE, kg)

13 www.nina.no Brown trout in lakes  Population abundance (measured as gill net CPUE, kg) (Helland et al. 2010)

14 www.nina.no Remote sensing of lake productivity? >70% of TOC explained by catchment NDVI, based on modelled values for > 30 000 lakes Red points: TOC in ~70 lowland lakes Larsen et al. 2010 Ulvan et al. 2011 A.G. Finstad, unpubl.

15 www.nina.no Ongoing work: Lake characters vs. regulation Full model:  Trout biomass ~ regulation + NDVI + ice cover + NDVI/ice cover + regulation/ice cover + regulation/NDVI (Finstad, Helland et al., in prep) Google maps

16 www.nina.no Trout CPUE (biomass) in allopatry  Strong negative effect of regulation (p<0.001)  Strong positive effect of NDVI (p<0.001)  Non-significant positive effect of ice cover (p=0.057) © OT Sandlund

17 www.nina.no Trout CPUE (biomass) in sympatry  Negative effect of regulation (p=0.016)  Negative effect of ice cover (p=0.009)  Positive effect of interaction term regulation:ice cover (p=0.022)  Non-significant positive effect of NDVI (p=0.060) © OT Sandlund

18 www.nina.no The impact of sympatry, an example ● b.t. in allopatry ● b.t. in sympatry with Arctic charr

19 www.nina.no Summary  Macrophytes: «Proper» index developed for HyMo in lakes (WIc, Hellsten et al. 2011)  Invertebrates: some indications on regulation response: ß-diversity higher in natural lakes  Fish: clear response in brown trout biomass after correction for lake productivity, climate and productivity  Indications are that macrophyte G/M boundaries are stricter than invertebrate and fish G/M boundaries

20 www.nina.no Where are we going?  Climate change research on lakes and fish ecology have provided promising results of relevance for HyMo in WFD  We need to work with low-diversity systems (because that’s what we have!)  Which QEs are relevant in HyMo lakes?  How do we define Good/Moderate vs. HWMB boundaries?  Should we struggle to avoid HMWB-status for lakes / reservoirs?

21 www.nina.no Cooperation and expertise for a sustainable future  Photo: P. Jordhøy, J. Thomassen, E. B. Thorstad, A. Staverløkk, T. Aarvak, B. Løken/Samfoto © OT Sandlund

Download ppt "Ecological assessment methods for lakes, Norway Odd Terje Sandlund Input from M. Mjelde (NIVA) and colleagues at NINA"

Similar presentations

NAFE 3rd Workshop 17-18 Sept 2007 Vegetation Water Status from Optical Remote Sensing ___ Preliminary results from the NAFE05 experiment Philippe Maisongrande,

NAFE 3rd Workshop Sept 2007 Vegetation Water Status from Optical Remote Sensing ___ Preliminary results from the NAFE05 experiment Philippe Maisongrande,
U.S. Department of the Interior U.S. Geological Survey Amphipod Density as a Biological Indicator of Wetland Quality in the Prairie Pothole Region of North.

U.S. Department of the Interior U.S. Geological Survey Amphipod Density as a Biological Indicator of Wetland Quality in the Prairie Pothole Region of North.
Food webs and trophic cascades in lakes. How to represent trophic relationships? (Paine 1980) 1.Connectedness Based on observations 2.Energy flow web.

Food webs and trophic cascades in lakes. How to represent trophic relationships? (Paine 1980) 1.Connectedness Based on observations 2.Energy flow web.
9th April 2014Kari Austnes1 Critical limits for acidification of surface waters vs boundary values in the Water Framework Directive (WFD) – a Norwegian.

9th April 2014Kari Austnes1 Critical limits for acidification of surface waters vs boundary values in the Water Framework Directive (WFD) – a Norwegian.
SKYE INSTRUMENTS LTD Llandrindod Wells, United Kingdom.

SKYE INSTRUMENTS LTD Llandrindod Wells, United Kingdom.
Chukchi/Beaufort Seas Surface Wind Climatology, Variability, and Extremes from Reanalysis Data: 1979- 2009 Xiangdong Zhang, Jeremy Krieger, Paula Moreira,

Chukchi/Beaufort Seas Surface Wind Climatology, Variability, and Extremes from Reanalysis Data: Xiangdong Zhang, Jeremy Krieger, Paula Moreira,
Draft River Basin Management Plan Workshop Freshwater Pearl Mussel December 2008.

Draft River Basin Management Plan Workshop Freshwater Pearl Mussel December 2008.
Levels of Ecological Organization in Freshwater Systems Population Community Ecosystem.

Levels of Ecological Organization in Freshwater Systems Population Community Ecosystem.
Giant Kelp Canopy Cover and Biomass from High Resolution SPOT Imagery for the Santa Barbara Channel Kyle C Cavanaugh, David A Siegel, Brian P Kinlan, Dan.

Giant Kelp Canopy Cover and Biomass from High Resolution SPOT Imagery for the Santa Barbara Channel Kyle C Cavanaugh, David A Siegel, Brian P Kinlan, Dan.
Outline Background, climatology & variability Role of snow in the global climate system Indicators of climate change Future projections & implications.

Outline Background, climatology & variability Role of snow in the global climate system Indicators of climate change Future projections & implications.
Detection and Monitoring

Detection and Monitoring
Status of lake trout in Lake Superior 1993-2000 Shawn Sitar, MIDNR; Chuck Bronte, USFWS; Mark Ebener, CORA; Tom Fratt, RCFD; Ken Gebhardt, BMIC; Ted Halpern,

Status of lake trout in Lake Superior Shawn Sitar, MIDNR; Chuck Bronte, USFWS; Mark Ebener, CORA; Tom Fratt, RCFD; Ken Gebhardt, BMIC; Ted Halpern,
Rivers Intercalibration Phase 2 Key Cross-GIG activities 2008-2011  Refining Reference Conditions  Intercalibrating Large River Ecological Status  Initial.

Rivers Intercalibration Phase 2 Key Cross-GIG activities  Refining Reference Conditions  Intercalibrating Large River Ecological Status  Initial.
Invertebrate Standards in Rivers Paul Logan. Existing CEN standards relating to the ecological assessment of freshwaters - TG1 - invertebrates Quality.

Invertebrate Standards in Rivers Paul Logan. Existing CEN standards relating to the ecological assessment of freshwaters - TG1 - invertebrates Quality.
Improving the AMSR-E snow depth product: recent developments Richard Kelly University of Waterloo, Canada.

Improving the AMSR-E snow depth product: recent developments Richard Kelly University of Waterloo, Canada.
The implementation of the EC Water Framework Directive in Norway Eva Skarbøvik and Stig A. Borgvang Norwegian Institute for Water Research (NIVA) with.

The implementation of the EC Water Framework Directive in Norway Eva Skarbøvik and Stig A. Borgvang Norwegian Institute for Water Research (NIVA) with.
Assessing Climate Changes in Arctic Sweden and Repercussions on Sami Reindeer Husbandry and Culture: Using a MODIS Image Time Series and Key Informant.

Assessing Climate Changes in Arctic Sweden and Repercussions on Sami Reindeer Husbandry and Culture: Using a MODIS Image Time Series and Key Informant.
Anne Lyche Solheim, Norwegian Institute for Water Research, Oslo, Norway Workshop on ”In situ trialing for ecological and chemical studies in support of.

Anne Lyche Solheim, Norwegian Institute for Water Research, Oslo, Norway Workshop on ”In situ trialing for ecological and chemical studies in support of.
Foto Tore Solstad, SNO Norways implementation of CBD Peter J. Schei China-Norway competence- project Wuhan, 12.09.2012.

Foto Tore Solstad, SNO Norways implementation of CBD Peter J. Schei China-Norway competence- project Wuhan,
Characterization Report Module 2: Water Budget, Pressures and Impacts, Significant Water Management Issues, Monitoring, Characterization Report Characterization.

Characterization Report Module 2: Water Budget, Pressures and Impacts, Significant Water Management Issues, Monitoring, Characterization Report Characterization.

Similar presentations

Ads by Google