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Mapping seasonal rice cropland extent and area in the high cropping intensity environment of Bangladesh using MODIS 500 m data for the year 2010

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Title Mapping seasonal rice cropland extent and area in the high cropping intensity environment of Bangladesh using MODIS 500 m data for the year 2010
 
Creator Gumma, Murali Krishna
 
Contributor Thenkabail, Prasad
Maunahan, Aileen
Islam, Saidul
Nelson, Andrew
 
Subject modis ndvi
spectral matching techniques
field-plot information
cropping intensity
seasonal rice mapping
Rice
 
Description Rice is the most consumed staple food in the world and a key crop for food security. Much of the world’s
rice is produced and consumed in Asia where cropping intensity is often greater than 100% (more than
one crop per year), yet this intensity is not sufficiently represented in many land use products.
Agricultural practices and investments vary by season due to the different challenges faced, such as
drought, salinity, or flooding, and the different requirements such as varietal choice, water source, inputs,
and crop establishment methods. Thus, spatial and temporal information on the seasonal extent of rice is
an important input to decision making related to increased agricultural productivity and the sustainable
use of limited natural resources. The goal of this study was to demonstrate that hyper temporal moderate-
resolution imaging spectroradiometer (MODIS) data can be used to map the spatial distribution of the
seasonal rice crop extent and area. The study was conducted in Bangladesh where rice can be cropped
once, twice, or three times a year.
MODIS normalized difference vegetation index (NDVI) maximum value composite (MVC) data at 500 m
resolution along with seasonal field-plot information from year 2010 were used to map rice crop extent
and area for three seasons, boro (December/January–April), aus (April/May–June/July), and aman (July/
August–November/December), in Bangladesh. A subset of the field-plot information was used to assess
the pixel-level accuracy of the MODIS-derived rice area. Seasonal district-level rice area statistics were
used to assess the accuracy of the rice area estimates. When compared to field-plot data, the maps of rice
versus non-rice exceeded 90% accuracy in all three seasons and the accuracy of the five rice classes varied
from 78% to 90% across the three seasons. On average, the MODIS-derived rice area estimates were 6%
higher than the sub-national statistics during boro, 7% higher during aus, and 3% higher during the aman
season. The MODIS-derived sub-national areas explained (R2 values) 96%, 93%, and 96% of the variability
at the district level for boro, aus, and aman seasons, respectively.
The results demonstrated that the methods we applied for analysing and interpreting moderate spatial
and high temporal resolution imagery can accurately capture the seasonal variability in rice crop extent
and area. We discuss the robustness of the approach and highlight issues that must be addressed before
similar methods are used across other areas of Asia where a mix of rainfed, irrigated, or supplemental
irrigation permits single, double, and triple cropping in a single calendar year.
 
Date 2014-02-18
2017-01-09T21:33:46Z
2017-01-09T21:33:46Z
 
Type Journal Article
 
Identifier https://mel.cgiar.org/reporting/download/hash/WXU49hog
Murali Krishna Gumma, Prasad Thenkabail, Aileen Maunahan, Saidul Islam, Andrew Nelson. (18/2/2014). Mapping seasonal rice cropland extent and area in the high cropping intensity environment of Bangladesh using MODIS 500 m data for the year 2010. ISPRS Journal of Photogrammetry and Remote Sensing, 91, pp. 98-113.
https://hdl.handle.net/20.500.11766/5396
Limited access
 
Language en
 
Rights CC-BY-NC-4.0
 
Format PDF
 
Publisher Elsevier
 
Source ISPRS Journal of Photogrammetry and Remote Sensing;91,(2014) Pagination 98,113