2. Contents
Introduction
Function of wetlands
Remote sensing in wetland mapping
Literature review
Common methodology
Case studies
Summary
References
2
3. Introduction
A wetland is a land area
which is completely saturated
with water either permanently
or seasonally.
The factor that distinguishes
wetlands from other land
forms or water bodies is the
characteristic vegetation
that is adapted to its unique
soil conditions. Fig1:Amazon river basin
3
4. Functions of wetland
Flood control
Groundwater replenishment
Water purification
Shoreline stability
Climate change mitigation and adaptation
Recreation and tourism
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5. Remote sensing in wetland mapping
Satellite remote sensing can also provide information on
surrounding land uses and their changes over time.
Current information on the uplands.
Remote sensing of wetlands started in 1972 with the launch
of LANDSAT-1.
But due to low resolution of LANDSAT, LANDSAT TM is
used for mapping of wetland changes.
Landsat TM bands 4 (near infrared), 5 (mid-infrared), and 3
(red) were most optimal for discriminating between land-
water interface
5
7. Some of the satellites & sensors used
Landsat MSS
Landsat TM
Landsat ETM+
IRS P6 LISS III
Panchromatic & multispectral sensors in IKONOS
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8. Literature Review
Ozesmi et.al (2002) explained the classification techniques for
wetland classification & identification.
Chaves et.al(2007) described the combined usage of satellite data &
ancillary data for baseline inventory & also about wetland
restoration.
Li et.al (2007) explained the change of the Yellow river delta
wetlands. The result has significance for building & protecting eco-
environment
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9. Jyotishman Deka et.al (2011) suggested that usage of remotely
sensed data for wetland mapping provides a cost effective method
& spatio-temporal characteristics of wetlands in terms of change
detection could serve as guiding tool, in conservation and
prioritization of wetlands
Ghobadi et.al (2012) applied multi temporal remote sensing data &
GIS techniques to monitor changes in wetlands.
Nidhi Nagabhatla et.al (2012) explained wetland delineation &
mapping in coastal regions. The study reflects an approach for
practical application of pro-supervised learning and pattern
recognition for the multi-spectral earth observation data
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11. Case study 1
Title : Use of Multi-Temporal Remote Sensing Data and GIS
for Wetland Change Monitoring and Degradation.
Author : Ghobadi et.al (2012)
Journal : Institute of Electrical & Electronic Engineers
Objective: The main objective of this study is to assess the
wetland change and degradation using multi-temporal
satellite data, GIS and ancillary data in Hoor Al Azim
wetland.
11
12. Study area : The study
area is located in the
southwest of Iran
bordering with Iraq and
lies within the latitude
31°28′4″ N and longitude
47° 56′ 57″ E in north of
the Persian Gulf. This
wetland is mainly fed by
Karkheh River
Fig 3: Location of study area
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13. Data
Data and information on wetland and upstream,
was extracted from Multispectral Scanner (MSS) image
in 1985 and Enhance Thematic Mapper (ETM+) images
of the years 1999, 2002, and 2011
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Image Path/row Date of
acquisition
Season time
Landsat 5 MSS 166/38 25/05/1985 Before harvesting
Landsat 7 ETM+ 166/38 18/10/1999 Beginning of
growth
Landsat 7 ETM+ 166/38 03/05/2002 Before harvesting
Landsat 7 ETM+ 166/38 03/10/2011 Beginning of
growth
14. Ancillary data
Fig 5 : Distribution of precipitation and evapotranspiration in the area
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16. Image preprocessing & classification
Atmospheric & geometric corrections were applied for
images with image obtained on 3rd may 2002 as
reference.
Supervised classification was performed & six classes
were identified. But in the present study two classes
have been assessed
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18. Multi temporal classification :
The accuracy of the data for the years 1985, 1999, 2002, and 2011
was 76.83%, 82.84%, 76.74%, and 88.23% respectively.
The mean overall accuracy of classification was 81.16%
Table 2 : Area & percent of land cover area in study area
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Class Percent % /area (ha)
1985 1999 2002 2011
1 1.56/207 2.13/277 3.04/15849 7.92/41325
2 4.52/5902 6.811/8681 13.6/35545 14.35/70887
3 49.5/64142 52.94/274033 43.16/58545 47.16/249637
4 7.14/9218 9.39/46432 14.25/19192 9.28/48443
5 25.61/33405 24.9/130275 7.34/9555 14.68/7735
6 11.46/14944 3.75/19530 6.65/22197 17.05/34684
Classes: 1 – Water body, 2 – Farming, 3 – Rangeland, 4 – Sand dune, 5 – Smooth
sand surface,6 – Farmland
20. Fig 8 : Spatial temporal changes in Hoor Al Azim wetland
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21. Case study 2
Title : Remote Sensing & GIS based integrated study &
analysis for mangrove - wetland restoration in Ennore Creek,
Chennai, South India.
Author : Chaves et.al (2008)
Conference : The 12th World Lake Conference
Objective : To study the wetland degradation & its factors.
Study area : Ennore creek is located 10 Km north of chennai
city between 130 11’10’’ to 130 15’00’’ north & longitudes 800
17’20’’ to 800 20’30’’
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24. Image processing
Image processing operations are essentially meant to
substitute visual analysis of remotely sensed data with
quantitative analysis.
The distinction between the features was achieved by
applying principal component analysis (PCA) &
minimum noise fraction analysis (MNF).
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27. A 3D model of the study
area was prepared by
draping the Landsat TM
false color composite of
bands 4,3 & 1 over the
Shuttle Radar
Topographic Mission
elevation data
Fig 15 :Area quantification map
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28. Summary
Multi temporal remote sensing data is complimentary to
wetland information extraction at a particular time &
monitoring change over a given period of time.
The combined use of satellite data & ancillary data helps
to delineate coastal wetland boundary.
GIS layers can be applied for wetland restoration.
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29. References
Birajdara, Samee Azmia, Arun Inamdara, Tutu Sengupta and A.K.
Sinha (2009) ISPRS Archives XXXVIII-8/W3 Workshop
Proceedings: Impact of Climate Change on Agriculture at
Ahmedabad, Dec 17-18 2009,381-385
Chaves & Lakshumanan (2008) The 12th World lake conference at
Jaipur,29th oct-2nd Nov 2007,685-690
Deka, Om Prakash Tripathi & Mohammad Latif Khan (2011)
Journal of wetlands ecology 5(4),40-47
29
30. Ghobadi, Pradhan, Kabiri, Pirasteh, Shafri and Sayyad (2012)
IEEE colloquium humanities, science & engineering at Malaysia,
Dec 3-4 2012. Pg:103-108
Li, Shifeng Huang, Ji-ren Li, Mei Xu (2007) Geoscience & Remote
sensing symposium at Barcelona , July 23-28 2007, 4607-4610
Nagabhatla, C. M ax Finlayson and Sonali Seneratna Sellamuttu3
(2012) European journal of Remote sensing on wetland ecosystem,
45(3), 215-232
Ozesmi and Marvin E. Bauer (2002) Journal on Wetlands Ecology
and Management, 10(5), 381-402
30