This study compared data from the MODerate-resolution Imaging Spectroradiometer (MODIS) onboard NASA’s Terra satellite and the Spinning Enhanced Visible and Infrared Imager (SEVIRI) on EUMETSAT’s Meterosat Second Generation (MSG) satellite with in situ data obtained from ground observation stations in Congo-Brazzaville. Remote sensing instruments can be used to estimate air temperature, which has an important role in monitoring the effects of climate change. Congo-Brazzaville is located in equatorial forest, which is difficult to access, and has a limited number of ground meteorological stations measuring air temperature. This study used MODIS and MSG data for the period 2009-2014 to assess the performance of land surface temperature data from satellites against in situ data from ground-based stations in Congo-Brazzaville using a linear regression model. This work has allowed us to determine which satellite is best adapted for use in Central Africa.
Central Africa has a rich biodiversity, but there have been few studies of the dynamics, mass balance and regional climatology of this part of the world. Land surface temperature (LST) data from remote sensing satellites have been used to study the atmospheric processes in this region, either as a substitute for, or in combination with, more spatially limited ground measurements of the near-surface air temperature. However, there is a need to improve the assessment and reconstruction of the spatial and temporal variability of the measurements of air temperature at the ground surface recorded by instruments onboard satellites.
Remote sensing technology is a powerful tool to regularly monitor and evaluate the Earth’s surface. A major challenge for the scientific community is to ensure that these sensors are correctly calibrated. Post-launch, the onboard instruments are radiometrically calibrated by simulating signals from the surface and the atmosphere based on a single site, which will cause errors between different satellite sensors. The lack of good quality remotely sensed data from different countries and different satellites with multi-source consistency has the potential to limit the scope of remote sensing.
It is therefore important to assess the quality of remote sensing data in Central Africa and to develop a feasible strategy for the quality control of these data (e.g. the AMESD and MESA projects) to ensure the performance of satellites, the quality of the data obtained from them and to guarantee accuracy. This paper reports a comparison of remote sensing data with temperature data measured at ground level to determine whether data from satellites can be used in research work in Central Africa and in the Congo region in particular.
The LST is an important measurement in the global system of data collection by specialized international organizations [
A number of studies have validated the algorithms for the MODIS LST products, taking into account the influence of meteorological parameters such as wind speed and air temperature, the zenith angle of the sensor view [
Satellite technology based on imaging in the thermal infrared region presents an opportunity to measure ground temperatures at different spatial and temporal scales for use in in-depth studies of biological, hydrological and climatological ecological systems and in the identification of surface-atmosphere interactions and feedbacks [
The Congo-Brazzaville district is important in terms of climate change and agriculture, but is almost inaccessible, which makes conventional meteorological observations on the ground very difficult. Although satellite can provide remote sensing data, these data are difficult to verify as a result of the lack of in situ observations. This study compared the available ground surface data from meteorological measuring stations with data from the satellite products to calibrate the satellite data for use in future studies on climate change.
The aim of this study was to assess the performance of the MODIS LST product aboard NASA’s Terra satellite and the LSF edge onboard the MSG satellite to characterize the spatio-temporal variations in the LST over a six-year period from 2009 to 2014. To achieve this, the MODIS and MSG data were compared with the surface temperature measured at meteorological stations in Congo-Brazzaville.
This study first determined the number of days on which these two satellites made observations over Central Africa, which corresponds to the number of days with clear skies. The daily and annual temporal distributions of the LST were compared using statistical analysis. The LST behavior was then analyzed with the inclusion of climatic factors.
This paper is structured as follows. Section 2 describes the study area, data and methodology. Section 3 presents the results and their interpretation based on our analysis. Conclusions and recommendations drawn from our findings are outlined in Section 4.
Two kinds of data were used: 1) satellite image products from MODIS and MSG (
The meteorological data were obtained from synoptic stations located throughout the country, covering the whole geographical area of Congo-Brazzaville (
The NASA’s Terra and Aqua satellites began operational observations using MODIS on 24 February 2000 and 4 May 2002, respectively, and the daily observation
Satellite | Period | Format |
---|---|---|
Terra MODIS | 2009-2014 | hdf |
MSG | 2009-2014 | hdf |
Meteorological station | Latitude | Longitude | Altitude (m) | Type of climate |
---|---|---|---|---|
Souanké | 2˚04'48"N | 14˚07'48"E | 549 | Equatorial |
Ouesso | 1˚36'48"N | 16˚03'06"E | 352 | |
Impfondo | 1˚38'17"N | 18˚04'00"E | 335 | |
Makoua | 0˚00'24"N | 15˚37'59"E | 394 | |
Kelle | 0˚06'00"S | 14˚29'00"E | 408 | Subequatorial |
Mpouya | 0˚53'01"S | 14˚48'15"E | 311 | |
Gamboma | 1˚52'35"S | 15˚51'51"E | 476 | |
Djambala | 2˚32'40"S | 14˚45'11"E | 791 | |
Ewo | 0˚52'00"S | 14˚49'00"E | 438 | |
Makabana | 3˚29'00"S | 12˚37'00"E | 161 | Tropical |
Dolisie | 4˚11'54"S | 12˚39'59"E | 329 | |
Sibiti | 3˚40'54"S | 13˚20'59"E | 530 | |
Mouyondzi | 3˚59'32"S | 13˚55'44"E | 509 | |
Brazzaville | 4˚15'56"S | 15˚16'59"E | 319 | |
Pointe-noire | 4˚46'33"S | 11˚51'48"E | 17 | |
Nkayi | 4˚18'00"S | 13˚28'00"E | 173 |
times were set at local times of about 01:30, 10:30, 13:30 and 22:30 h. We used the LST product MOD11C1, which is derived from MOD11B1 in bands 31 (10.78 - 11.28 μm) and 32 (11.77 - 12.27 μm) The dataset is available in hierarchical data format (HDF) at https://lpdaac.usgs.gov.
The MSG is a geostationary satellite covering Europe, Africa, and parts of the Atlantic and Indian oceans. It provides images at 15-min intervals [
Congo-Brazzaville (
the south by the Angolan enclave of Cabinda.
Congo-Brazzaville consists entirely of ancient basement rocks, which outcrop throughout the south of the country. In the north, they are covered by a thick layer of sedimentary rocks, which are most widespread in Batéké and the Congolese Cuvette.
The soils of Congo-Brazzaville are classified as ferralitic soils. Two types of vegetation cover the entire territory―forest and savanna―with a dominance of forest (60% coverage) [
There are three types of climate in Congo-Brazzaville. The climate in the north of the country is equatorial with high humidity. In the center, the climate is subequatorial and is strongly influenced by areas of intertropical low pressure from October to May and southern subtropical high pressure from June to September. The average annual temperature is about 23˚C. The climate in the southwest is humid tropical with monthly average temperatures between 21˚C and 27˚C [
Data derived from the satellite LST products were downloaded from Landsaf.ipma.pt for the MSG data and lpdaac.usgs.gov for the MODIS Terra data. The data for each day at the time of passage of the satellite over Congo-Brazzaville were stored in two separate data folders for the analysis period 2009-2014. The data files were extracted to provide time series by hour, day and year [
The codes were intended: 1) to read HDF files to re-projection; 2) to resize the data according to the study area; and 3) to extract the values of each pixel based on the geographical coordinates of each station to generate a file of the time series for the data. The time series were limited to the available observations of the satellites, which were limited by the presence of clouds. Another code was written to match the dates of the LST time series with the in situ data for each station. We numerized the in situ data and used a regression method to determine the correlation coefficient between the MODIS and MSG data and the in situ data. The number of cloudless days is defined by Equation (1):
Percentagenumberofdatacloudlessdays = N C d N Y * 100 % (1)
where N C d is the number of data points for cloudless days and N Y is the number of days per year.
To determine the relationship between the MODIS and MSG LST data and the in situ data, we used the Pearson correlation coefficient (r) and the root mean square error (RMSE). These values show the strength of the link (positive or negative) between the variables. According to the regression model, the r correlation determines a dimensionless scale in the range 0 - 1 and can be expressed as a percentage. The RMSE statistic (Equation (2)) [
R M S E = ( 1 n ∑ i = 1 n ( T L S T − T O b s ) 2 ) 1 / 2 (2)
only possible on an average of 37.5% days. The lowest average was at Brazzaville station, where measurements by the MSG satellite were made on only 13.8% of days. These stations are located in the tropical humid climate zone. The LST MODIS data also show that stations in the tropical climate zone have lower percentages of measurements per year compared with stations in other climatic zones, with the average over six years varying between 48.86% and 18.9%. The highest percentage of measurements per year was obtained at Mpouya station (51.78%), located in the subequatorial climate zone, and the lowest at the Mouyondzi station (13.7%), located in the tropical humid climate zone. The low percentage of LST values is explained by deficiencies in the split windows temperature extraction method [
The six-year average percentage of days with measurements for each climatic zone indicates that the subequatorial climate zone (average 33.3% for MSG and 37.4% for MODIS) has the fewest clouds, whereas the equatorial climatic zone (average 29.73% for MSG and 35.9% for MODIS) has the most clouds. The tropical climate zone has an average percentage of days with measurements of 22.2% for MSG and 24.2% for MODIS.
The cloud cover data retrieved from the ECMWF analyses (
The relative humidity gives the level of saturation of water vapor in the lower troposphere (between 700 and 850 hPa). A high relative humidity is an indicator of possible cloud formation and precipitation and strongly affects visibility in the atmosphere by influencing the height of clouds and the formation of fog.
influence is locally accentuated by the extensive forest cover and the large number of lakes, rivers and wetlands [
The results shown in
more moderate [
The data from Gamboma station show that the MODIS LST values overestimated the temperature with respect to the air temperature observed at ground level. At Ouesso station, the MODIS LST values underestimated the air temperature observed at ground level by 0˚C - 15˚C. At Brazzaville and Pointe-Noire stations, the MODIS LST underestimated the air temperature observed at ground level (
The data from Gamboma station show that the MSG LST values overestimated the air temperature observed at ground level, with differences between 0 and 15˚C. At Brazzaville and Ouessos the MSG LST values overestimated the air temperature observed at ground level by between −5˚C and 5˚C with respect to air temperature. Pointe-Noire also shows an overestimation with differences between −10˚C and 15˚C (
Data from Pointe-Noire, Makoua, Brazzaville, Gamboma, Mpouya, Djambala and Dolisie stations show that the MSG LST values overestimated the air temperature observed at ground level with a mean bias between 1.6607˚C and 8.87281˚C. At Ouesso and Makabana stations the MSG LST values overestimated the air temperature observed at ground level with a mean bias between −3.44094˚C and −0.56705˚C, respectively (
The data from Ouesso, Brazzaville, Dajambala and Gamboma stations show
that the MODIS LST values overestimated the air temperature observed at ground level with a mean bias between 0.87302˚C and 4.38296˚C. At Black Peak, Makoua, Mpouya, Makabana and Dolisie stations the MODIS LST values underestimated the air temperature observed at ground level with a mean bias between −1.01464˚C and −1.76591˚C for the year 2009.
In general, the values of the MSG LSTs overestimated the observed temperature, whereas the MODIS LST values underestimated the observed temperature (
Tables 4-6 show that the stations located in the equatorial climate zone have moderate correlation coefficients of 0.23 for the MSG LST and 0.64 for air temperature. The RMSEs vary between 1.7˚C and 2.7˚C and MAEs ranged from 1.6˚C to 4.66˚C from 2009 to 2014. There is a moderate correlation coefficient
Station | 2009 | 2010 | 2011 | 2012 | 2013 | 2014 | ||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
MSG | MODIS | MSG | MODIS | MSG | MODIS | MSG | MODIS | MSG | MODIS | MSG | MODIS | |
Ouesso | −3.44094 | 0.87302 | - | 0.80273 | −3.42182 | 0.63081 | −4.15 | 0.95 | −4.05044 | 0.85299 | −3.55078 | |
Makoua | 2.72362 | −1.01464 | 2.88403 | −0.85806 | 3.63535 | −0.4731 | 4.21204 | 0.02815 | 4.66302 | 0.23603 | 3.97242 | −0.21613 |
Souanké | - | - | - | - | - | −1.02026 | −3.33684 | |||||
Impfondo | - | 1.76147 | −4.48695 | - | - | - | 0.80537 | −4.01519 | ||||
Gamboma | 7.32239 | 1.24963 | 6.26196 | 0.03982 | 8.76632 | 2.13415 | 7.51587 | 0.85731 | - | 7.79176 | 1.23847 | |
Mpouya | 2.34608 | −2.31288 | 2.4484 | −2.24296 | 2.6433 | −2.21268 | - | 3.09092 | −0.95 | 2.79913 | −1.89577 | |
Djambala | 7.54859 | 4.38296 | 8.22854 | 3.14753 | 8.74611 | 4.39333 | 9.85023 | 5.68818 | 6.85508 | 3.04905 | 9.21218 | 3.90051 |
Ewo | 4.09906 | −0.04969 | - | 5.28741 | 1.2869 | 5.20708 | 0.37396 | 5.66636 | 0.76013 | 5.627 | 0.58475 | |
Kelle | 4.25409 | 0.5997 | 3.55722 | −0.24074 | 4.33808 | 0.79269 | 5.42381 | 1.13794 | 6.22968 | 1.8027 | 5.46435 | 1.27581 |
Pointe-noire | 1.66071 | −1.53881 | 2.02239 | −1.8587 | 2.96366 | −1.51195 | 2.37082 | −0.9511 | 4.17103 | 0.11765 | 3.83035 | −0.49456 |
Brazzaville | 8.87281 | 0.84813 | 9.22904 | 1.12846 | 8.7122 | 0.40805 | 8.53848 | −0.41303 | 8.91429 | 1.85122 | 8.8465 | 0.763 |
Nkayi | - | 4.94377 | 0.2418 | 6.8217 | 2.18574 | 5.33276 | 0.88241 | 5.26277 | 1.49468 | |||
Makabana | −0.56705 | −1.76591 | 0.66229 | −0.39167 | 0.41595 | −0.19541 | 0.09386 | −1.46636 | −0.07781 | −0.44813 | 0.4448 | 0.1452 |
Dolisie | 2.70597 | −1.20701 | 3.96203 | −0.72875 | 4.8983 | 0.33679 | 3.26102 | −0.34918 | 3.97625 | 0.45313 | 3.74911 | 0.78911 |
Sibiti | 1.07054 | −1.94459 | 3.6669 | −0.74103 | 1.85917 | −1.97 | 1.89441 | −1.51706 | 2.80912 | −0.71824 | - | |
Mouyondzi | 4.34278 | 0.13278 | 7.36956 | 3.35756 | 6.43947 | 1.55684 | 4.26059 | 1.00706 | 5.88628 | 2.03233 | 5.3403 | 1.92818 |
Station | 2009 | 2010 | 2011 | 2012 | 2013 | 2014 | ||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
MSG | MSG | MSG | MSG | MSG | MSG | |||||||||||||
r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | |
Ouesso | 0.27 | 4.2198 | 2.0113 | - | 0.42 | 1.8866 | 2.1618 | 0.23 | 1.9137 | 2.2779 | 0.47 | 1.778 | 1.897 | 0.57 | 1.6184 | 1.7874 | ||
Makoua | 0.421 | 3.252 | 2.7999 | 0.64 | 3.3202 | 2.6387 | 0.28 | 4.0109 | 2.7451 | 0.576 | 4.308 | 2.3812 | 0.639 | 4.663 | 1.9467 | 0.482 | 4.134 | 2.141 |
Souanké | - | - | - | - | - | 0.257 | 2.0966 | 2.237 | ||||||||||
Impfondo | - | 0.587 | 2.5539 | 2.5145 | - | - | - | 0.442 | 1.8706 | 2.1626 | ||||||||
MODIS | MODIS | MODIS | MODIS | MODIS | MODIS | |||||||||||||
r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | |
Ouesso | 0.025 | 1.9847 | 3.6412 | - | 0.17 | 3.8925 | 3.1334 | 0.246 | 4.4158 | 3.0466 | 0.19 | 4.1673 | 3.2679 | 0.39 | 3.6513 | 2.6555 | ||
Makoua | 0.429 | 2.0001 | 2.2853 | 0.64 | 2.056 | 2.4099 | 0.163 | 2.459 | 2.8846 | 0.435 | 2.0493 | 2.371 | 0.595 | 1.8665 | 2.2113 | 0.24 | 2.1442 | 2.562 |
Souanké | - | - | - | - | - | 0.252 | 3.4505 | 2.5036 | ||||||||||
Impfondo | - | 0.383 | 4.5863 | 3.0968 | - | - | - | 0.413 | 4.0812 | 2.8897 |
Station | 2009 | 2010 | 2011 | 2012 | 2013 | 2014 | ||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
MSG | MSG | MSG | MSG | MSG | MSG | |||||||||||||
r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | |
Gamboma | 0.486 | 3.252 | 2.6271 | 0.477 | 6.3539 | 2.9769 | 0.156 | 8.7861 | 3.2467 | 0.265 | 7.5159 | 2.8712 | - | 0.414 | 7.8205 | 2.7227 | ||
Mpouya | 0.41 | 2.6485 | 2.2268 | 0.33 | 2.9252 | 2.5934 | 0.43 | 2.9744 | 2.461 | - | 0.31 | 3.2441 | 2.2392 | 0.3076 | 2.9578 | 2.0013 | ||
Djambala | 0.165 | 7.6444 | 3.3217 | 0.073 | 8.2699 | 3.7399 | 0.197 | 8.7461 | 3.7807 | 0.202 | 9.853 | 3.4828 | 0.319 | 6.8551 | 3.5592 | 0.07 | 9.2663 | 3.8801 |
Ewo | 0.062 | 4.5313 | 3.0823 | - | 0.0781 | 5.3967 | 2.9856 | 0.1 | 5.4606 | 3.0693 | 0.33 | 5.6731 | 3.1583 | 0.172 | 5.8218 | 3.20122 | ||
Kelle | 0.39 | 4.548 | 2.8472 | 0.73 | 3.6806 | 2.363 | 0.13 | 4.7142 | 3.1175 | 0.452 | 5.4298 | 2.5218 | 0.487 | 6.2297 | 2.2119 | 0.416 | 5.5353 | 2.2229 |
MODIS | MODIS | MODIS | MODIS | MODIS | MODIS | |||||||||||||
r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | |
Gamboma | 0.389 | 2.6001 | 2.8956 | 0.442 | 2.5364 | 3.185 | 0.018 | 4.3119 | 3.9188 | 0.28 | 2.7596 | 3.3205 | - | 0.313 | 3.106 | 3.4836 | ||
Mpouya | 0.1 | 3.4844 | 4.1532 | 0.28 | 3.1663 | 3.478 | 0.17 | 3.7533 | 4.2221 | - | 0.12 | 3.1495 | 4.078 | 0.01 | 3.0896 | 3.5353 | ||
Djambala | 0.01 | 5.292 | 3.7115 | 0.138 | 4.3107 | 4.1273 | 0.159 | 5.0236 | 4.4919 | 0.063 | 6.2882 | 4.5324 | 0.062 | 4.7929 | 3.9122 | 0.24 | 5.1695 | 3.7115 |
Ewo | 0.05 | 3.5303 | 3.9396 | - | 0.057 | 3.2366 | 3.5732 | 0.245 | 2.834 | 3.5162 | 0.212 | 2.8749 | 3.3831 | 0.312 | 3.0485 | 3.78699 | ||
Kelle | 0.4 | 1.9433 | 2.2875 | 0.53 | 2.2185 | 3.0956 | 0.078 | 2.3846 | 2.5739 | 0.372 | 2.3494 | 2.7394 | 0.43 | 2.4941 | 2.4727 | 0.38 | 2.38 | 2.4434 |
stations | 2009 | 2010 | 2011 | 2012 | 2013 | 2014 | ||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
MSG | MSG | MSG | MSG | MSG | MSG | |||||||||||||
r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | |
Pointe-noire | 0.518 | 4.2176 | 4.9624 | 0.454 | 5.022 | 5.4611 | 0.402 | 4.7239 | 5.1365 | 0.346 | 4.2626 | 4.5802 | 0.451 | 5.9919 | 5.8166 | 0.499 | 5.0153 | 4.5957 |
Brazzaville | 0.656 | 8.8728 | 2.7478 | 0.558 | 9.229 | 3.3541 | 0.568 | 8.7122 | 3.76 | 0.464 | 8.5385 | 3.1903 | 0.701 | 8.9143 | 2.4313 | 0.764 | 8.869 | 2.7918 |
Nkayi | - | 0.28 | 5.6939 | 5.5098 | 0.271 | 6.923 | 4.3799 | 0.186 | 5.7762 | 4.1638 | 0.289 | 5.9538 | 5.1563 | |||||
Makabana | 0.427 | 2.4398 | 3.1874 | 0.315 | 3.2973 | 3.9981 | 0.365 | 2.8987 | 3.4165 | 0.355 | 2.8589 | 3.5649 | 0.229 | 2.6191 | 3.0677 | 0.663 | 1.972 | 2.5194 |
Dolisie | 0.069 | 4.0606 | 4.2608 | 0.058 | 4.6811 | 4.127 | 0.363 | 5.2938 | 4.5223 | 0.187 | 4.7688 | 4.536 | 0.199 | 4.2538 | 3.3501 | 0.384 | 4.0776 | 3.5275 |
Sibiti | 0.049 | 3.6424 | 3.7387 | 0.313 | 4.1159 | 3.7302 | 0.368 | 3.3286 | 3.2163 | 0.389 | 3.2374 | 3.2219 | 0.683 | 3.2232 | 2.6256 | - | ||
Mouyondzi | 0.283 | 4.8972 | 3.4305 | 0.028 | 7.4389 | 4.8 | 0.3917 | 6.4558 | 4.7582 | 0.374 | 4.5053 | 2.9436 | 0.443 | 5.9021 | 3.197 | 0.088 | 5.3403 | 3.7409 |
MODIS | MODIS | MODIS | MODIS | MODIS | MODIS | |||||||||||||
r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | r | MAE | RMSE | |
Pointe-noire | 0.259 | 3.0698 | 3.2189 | 0.208 | 3.3846 | 3.7713 | 0.11 | 3.6237 | 3.4551 | 0.231 | 2.9108 | 3.1278 | 0.161 | 3.3988 | 3.69 | 0.439 | 2.7851 | 3.4529 |
Brazzaville | 0.188 | 2.7931 | 3.0995 | 0.252 | 3.5296 | 4.1097 | 0.206 | 3.3417 | 3.8145 | 0.155 | 3.5906 | 4.3869 | 0.048 | 4.1235 | 3.7746 | 0.284 | 3.0795 | 3.3453 |
Nkayi | - | 0.224 | 2.9162 | 3.6851 | 0.252 | 3.4666 | 4.0699 | 0.02 | 3.0045 | 3.3729 | 0.142 | 3.7449 | 4.1768 | - | ||||
Makabana | 0.032 | 2.6796 | 2.5621 | 0.0326 | 2.3871 | 2.3884 | 0.018 | 3.103 | 3.4265 | 0.133 | 2.7355 | 2.3191 | 0.093 | 3.12 | 2.7234 | 0.6 | 1.802 | 2.3795 |
Dolisie | 0.076 | 3.2864 | 3.6093 | 0.0701 | 3.4716 | 3.8695 | 0.203 | 2.9711 | 3.9455 | 0.16 | 2.9047 | 3.1488 | 0.002 | 3.1963 | 3.478 | 0.361 | 2.426 | 3.387 |
Sibiti | 0.123 | 3.8576 | 3.5561 | 0.094 | 3.0548 | 3.4718 | 0.034 | 4.1744 | 3.8194 | 0.166 | 2.5135 | 2.4852 | 0.48 | 2.2147 | 2.0698 | - | ||
Mouyondzi | 0.134 | 2.4194 | 2.9246 | 0.048 | 4.2647 | 3.1404 | 0.344 | 3.0674 | 3.6893 | 0.447 | 2.1512 | 2.3464 | 0.329 | 3.1128 | 2.872 | 0.029 | 3.2367 | 3.157 |
between the MODIS LST and air temperature, except for Ouesso station, which has low correlation coefficients (r = 0.025 in 2009, r = 0.17 in 2011). The RMSEs vary between 2˚C and 3.5˚C and the MAEs range from 1.8˚C to 4.6˚C. We found that Ouesso station showed better accuracy between the MSG LST and air temperature between 2011 and 2014, with the RMSE and MAE values decreasing to 1.7˚C and 1.6˚C, respectively. Using the MODIS LST data during the same period, we obtained a better accuracy only at Makoua station (RMSE = 2.2, r = 0.59 and MAE = 1.86). A previously reported study using MODIS data over the corn belt of the USA [
The stations located in the area of subequatorial climate showed moderate correlation coefficients between the MSG LST and the air temperature measured at ground level, varying between 0.25 and 0.487, with the exception of the Ewo and Djambala stations with correlation coefficients between 0.062 and 0.20. The correlation coefficients between MODIS LST and the air temperature measured at ground level are very low (between 0.05 and 0.28), with the exception of Kelle station, which showed moderate values between 0.4 and 0.58. The RMSE between the MSG LST and the air temperature measured at ground level varied between 2˚C and 3.88˚C and those of MAE between 2.64˚C and 9.26˚C. Similar results for MAE in West Africa have been reported previously [
The stations located in the area with a humid tropical climate were identical to those in the subtropical zone, with the exception of Brazzaville station, which had a correlation coefficient > 0.5 between 2009 and 2014, Pointe-Noire station with a correlation coefficient of 0.51 in 2009, and Makabana station with a correlation coefficient of 0.663, RMSE = 2.5˚C and MAE = 1.97˚C in 2014. A better accuracy was observed between the MSG LST and the air temperature measured at ground level. There was a better accuracy between the MODIS LST and the air temperature measured at ground level in 2014 than in other years.
We carried out a comparative study between the data obtained from the MSG and MODIS LST products and the air temperature data measured at ground level to determine whether these satellite data are suitable for use in research work in Central Africa. There is currently little published climate data available for this part of Africa.
The MSG LSTs showed a moderate correlation with air temperature measurements at 2 m above ground level at meteorological ground stations in the equatorial climate zone and good accuracy at some of the stations in the area. The MODIS LST data also showed good precision at some stations, especially those located in zones characterized by a subequatorial climate or humid tropical climate. These results corroborate those obtained in previous studies on the validation of satellite data [
The air temperature measured by these satellites can be used in future studies of climate change and in high-resolution regional climate models. The small amount of data from the two types of temperature measurement are a result of a number of factors, including temperature inversion, heterogeneities in surface emissivity and self-limiting satellites.
Future work should be carried out to evaluate LST products from other Earth observation satellites and to compare these results with a numerical model for this region.
I thank the World Meteorological Organization and the China/Nanjing University of Information Science & Technology, who have supported me during my studies and in this research. I acknowledge support from Water Resources Management, the International Commission of the Congo-Ubangi-Sangha Basin, Democratic Republic of Congo, and the Directorate of Meteorology, Congo-Brazzaville. This work is supported by the National Natural Science Foundation of China (41675028) and is a Project Funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions.
Kambi, M.O.C., Wang, Z.H. and Gulemvuga, G. (2018) Determination of the Correlation between the Air Temperature Measured in Situ and Remotely Sensed Data from MODIS and SEVIRI in Congo-Brazzaville. Atmospheric and Climate Sciences, 8, 192-211. https://doi.org/10.4236/acs.2018.82013