Using satellite imagery to assess macrophyte response to water-level manipulations in the Saskatchewan River Delta, Manitoba / Mark S. Baschuk, Michael D. Ervin, William R. Clark, Llwellyn M. Armstrong, Dale A. Wrubleski, and Gordon L. Goldsborough.

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Baschuk, Mark S

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Material type: Text

TextSeries: Wetlands. 32(6) 1091-1102 Publication details: 2012.Description: illustrations ; 28 cmLOC classification:

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Summary: QuickBird satellite imagery and object-based classification were used to map emergent macrophyte response in wetlands that were partially drawn down during a three-year period (2007–2010) in the Saskatchewan River Delta, Manitoba, Canada. Generalized logistic models were used to classify vegetation genera in three drawdown and three high-water (control) wetlands. User accuracy of models averaged 74 %, and was lower in partial drawdown wetlands (72 %) than in high-water wetlands (77 %). In partial drawdown wetlands, emergent macrophytes (especially Typha spp. and Carex spp.) senesced significantly after the first year of lowered water levels but senescent areas decreased over following years. Plants were not completely dead in dewatered areas and emergent stands recovered by the third year after drawdown. Open water area in the partial drawdown wetlands gradually decreased due to clonal expansion of Sparganium spp. Vegetation areas in high-water wetlands remained unchanged throughout the study period. Although partial water-level drawdowns temporarily influenced the growth of emergent macrophytes they did not expose the seed bank and did not result in substantial, prolonged changes in spatial arrangement of vegetation areas. The combination of high-resolution satellite imagery, object-based classification and logistic modeling was useful for documenting vegetation response to management in these remote, boreal wetland systems.

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Electronic Journal	IWWR Supported Research	Non-fiction	BAS (Browse shelf(Opens below))	Available		16784

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Previous	BAR Models to predict the distribution and abundance of breeding ducks in Canada /	BAR Modeling distribution and abundance of multiple species : different pooling strategies produce similar results /	BAS Effects of water-level managment on the abundance and habitat use of waterfowl and marsh birds in the Saskatchewan River Delta, Manitoba, Canada /	BAS Using satellite imagery to assess macrophyte response to water-level manipulations in the Saskatchewan River Delta, Manitoba /	BAS Effects of water depth, cover and food resources on habitat use of marsh birds and waterfowl in boreal wetlands of Manitoba, Canada /	BAY Effects of agricultural encroachment and drought on wetlands and shallow lakes in the Boreal Transition Zone of Canada /	BID Random placement models predict species-area relationships in duck communities despite species aggregation /	Next

Includes bibliographical references (pages 1101-1102).

QuickBird satellite imagery and object-based
classification were used to map emergent macrophyte response
in wetlands that were partially drawn down during a
three-year period (2007–2010) in the Saskatchewan River
Delta, Manitoba, Canada. Generalized logistic models were
used to classify vegetation genera in three drawdown and
three high-water (control) wetlands. User accuracy of models
averaged 74 %, and was lower in partial drawdown
wetlands (72 %) than in high-water wetlands (77 %). In
partial drawdown wetlands, emergent macrophytes (especially
Typha spp. and Carex spp.) senesced significantly
after the first year of lowered water levels but senescent
areas decreased over following years. Plants were not completely
dead in dewatered areas and emergent stands recovered
by the third year after drawdown. Open water area in
the partial drawdown wetlands gradually decreased due to
clonal expansion of Sparganium spp. Vegetation areas in
high-water wetlands remained unchanged throughout the
study period. Although partial water-level drawdowns temporarily
influenced the growth of emergent macrophytes
they did not expose the seed bank and did not result in
substantial, prolonged changes in spatial arrangement of
vegetation areas. The combination of high-resolution satellite
imagery, object-based classification and logistic modeling
was useful for documenting vegetation response to
management in these remote, boreal wetland systems.

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