The ratio between the red (R) and near-infrared (NIR) pixel
values of satellite imagery is determined by the normalized difference
vegetation index or NDVI. At a landscape level, NDVI analyses the spectral wave
reflections to investigate the ecosystem health through the greenish canopy
dynamism as a main ecosystem's body mass on an intertidal landform. The
vegetation cover pixel values (0-255) are transformed into a -1 to +1 scale via
the NDVI index. NDVIs showed vegetation canopy was clearly influenced by the
coastal environments. Thus, the main environmental and climate change factors
can be investigated, including temperature, precipitation, and sea level rise,
that are affecting the health and distribution of coastal vegetation.
Meanwhile, the runoff and sedimentation rates that can impact coastal areas are
investigated as well. This study investigates vegetation canopy dynamics on
three various coastal ecosystems in southeastern Australia over the past 40
years (1975-2015), as a comparison case study using NDVI index as an indicator.
Landsat 1-8 satellite imagery is used to drive temporal-datasets into NDVI
values. These values were then regressed to the climatic and geomorphic
variables. At the study sites, results show a clear increase in NDVI at Towamba
and Wandandian estuaries, compared to a slight decline at Comerong Island
(southeastern Australia). The most significant positive impact on NDVI was the
sedimentation rate since it has the potential to provide additional space for
vegetation. Except on Comerong Island, the temperature and sea level rise have
positive effects as well, but rainfall has no significant effect on the NDVI at
any site. Different NDVI trends have been recorded at these three coastal sites
reflecting different correlations between the vegetation, climatic and
geomorphic (as independent) variables. The largest impact on vegetation cover
and, hence, on NDVI was the geomorphological characteristics of such highly
dynamic intertidal estuarine landforms, which are subject to active erosion and
deposition processes. Using NDVI as an evaluation tool to assess the vegetation
cover has produced temporal-dynamic datasets that are correlated with the
primary environmental factors. Using this approach, resource managers will be
able to assess the possible effects of any environmental changes and then make
more informed decisions for conservation sustainability plans.
Author(s)details:-
Ali K. M. Al-Nasrawi
Environmental Futures Research Centre, School of Earth, Atmosphere and Life
Sciences (SEALS), University of Wollongong, NSW 2522, Australia and Department
of Geography, University of Babylon, Hillah, Babylon, Iraq.
Ameen A. Kadhim
Apply Geography Department, Karbala University, Karbala, Iraq and
Department of Geography, Environment and Spatial Sciences, Michigan State
University, Michigan, USA.
Sarah M. Hamylton
Environmental Futures Research Centre, School of Earth, Atmosphere and Life
Sciences (SEALS), University of Wollongong, NSW 2522, Australia.
Brian G. Jones
Environmental Futures Research Centre, School of Earth, Atmosphere and Life
Sciences (SEALS), University of Wollongong, NSW 2522, Australia.
Please See the book
here :- https://doi.org/10.9734/bpi/raeges/v3/3625G
No comments:
Post a Comment