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1.
Philos Trans A Math Phys Eng Sci ; 378(2181): 20190367, 2020 Oct 02.
Article in English | MEDLINE | ID: mdl-32862821

ABSTRACT

A bio-optical model for the Barents Sea is determined from a set of in situ observations of inherent optical properties (IOPs) and associated biogeochemical analyses. The bio-optical model provides a pathway to convert commonly measured parameters from glider-borne sensors (CTD, optical triplet sensor-chlorophyll and CDOM fluorescence, backscattering coefficients) to bulk spectral IOPs (absorption, attenuation and backscattering). IOPs derived from glider observations are subsequently used to estimate remote sensing reflectance spectra that compare well with coincident satellite observations, providing independent validation of the general applicability of the bio-optical model. Various challenges in the generation of a robust bio-optical model involving dealing with partial and limited quantity datasets and the interpretation of data from the optical triplet sensor are discussed. Establishing this quantitative link between glider-borne and satellite-borne data sources is an important step in integrating these data streams and has wide applicability for current and future integrated autonomous observation systems. This article is part of the theme issue 'The changing Arctic Ocean: consequences for biological communities, biogeochemical processes and ecosystem functioning'.


Subject(s)
Ecosystem , Environmental Monitoring/methods , Satellite Imagery/methods , Seawater/analysis , Arctic Regions , Carbon Cycle , Chlorophyll/analysis , Environmental Monitoring/instrumentation , Global Warming , Ice Cover/chemistry , Models, Theoretical , Norway , Oceans and Seas , Optical Phenomena , Remote Sensing Technology/instrumentation , Remote Sensing Technology/methods , Satellite Imagery/instrumentation , Spectrophotometry/instrumentation , Spectrophotometry/methods
2.
Ann Am Thorac Soc ; 16(10): 1207-1214, 2019 10.
Article in English | MEDLINE | ID: mdl-31573344

ABSTRACT

Air quality data from satellites and low-cost sensor systems, together with output from air quality models, have the potential to augment high-quality, regulatory-grade data in countries with in situ monitoring networks and provide much-needed air quality information in countries without them. Each of these technologies has strengths and limitations that need to be considered when integrating them to develop a robust and diverse global air quality monitoring network. To address these issues, the American Thoracic Society, the U.S. Environmental Protection Agency, the National Aeronautics and Space Administration, and the National Institute of Environmental Health Sciences convened a workshop in May 2017 to bring together global experts from across multiple disciplines and agencies to discuss current and near-term capabilities to monitor global air pollution. The participants focused on four topics: 1) current and near-term capabilities in air pollution monitoring, 2) data assimilation from multiple technology platforms, 3) critical issues for air pollution monitoring in regions without a regulatory-quality stationary monitoring network, and 4) risk communication and health messaging. Recommendations for research and improved use were identified during the workshop, including a recognition that the integration of data across monitoring technology groups is critical to maximizing the effectiveness (e.g., data accuracy, as well as spatial and temporal coverage) of these monitoring technologies. Taken together, these recommendations will advance the development of a global air quality monitoring network that takes advantage of emerging technologies to ensure the availability of free, accessible, and reliable air pollution data and forecasts to health professionals, as well as to all global citizens.


Subject(s)
Air Pollution/analysis , Environmental Monitoring/instrumentation , Environmental Monitoring/methods , Satellite Imagery/instrumentation , Air Pollutants/analysis , Humans , Particulate Matter/analysis , Patient Care , Societies, Medical , United States
3.
Environ Monit Assess ; 191(4): 211, 2019 Mar 09.
Article in English | MEDLINE | ID: mdl-30852736

ABSTRACT

Rapid development and applications of unmanned aerial vehicles (UAVs) provide promising solutions to and new opportunities for environmental monitoring. Owing to their flexibility in flight scheduling, high spatial resolution, and costs-effectiveness, UAVs have become a popular tool for monitoring dynamic environmental processes, such as emergence and outbreak of harmful algae blooms (HABs). The HABs outbreak, often linked with anthropogenic eutrophication, has become a serious environmental health problem that threats our communities. Existing studies show that UAV-based HABs monitoring is a cost-effective means of assisting environmental managers in developing precautionary warning system and coping strategies. This article summarized the state-of-the-art of using UAVs and lightweight onboard multispectral sensors for HABs monitoring from the perspective of quantitative remote sensing. It culminates in a discussion of challenges and opportunities for future research and applications on drone-based HABs monitoring.


Subject(s)
Environmental Health , Environmental Monitoring/instrumentation , Environmental Monitoring/methods , Harmful Algal Bloom , Remote Sensing Technology/instrumentation , Remote Sensing Technology/methods , Satellite Imagery/instrumentation , Satellite Imagery/methods
4.
Sci Total Environ ; 650(Pt 2): 1707-1721, 2019 Feb 10.
Article in English | MEDLINE | ID: mdl-30273730

ABSTRACT

The Simple Algorithm for Yield estimates (SAFY) is a crop yield model that simulates crop growth and biomass accumulation at a daily time step. Parameters in the SAFY model can be determined from literature, in situ measurements, or optical remote sensing data through data assimilation. For effective determination of parameters, optical remote sensing data need to be acquired at high spatial and high temporal resolutions. However, this is challenging due to interference of cloud cover and rather long revisiting cycles of high resolution satellite sensors. Spatio-temporal fusion of multi-source remote sensing data may represent a feasible solution. Here, crop phenology-related parameters in the SAFY model were derived using an improved Two-Step Filtering (TSF) model from remote sensing data generated through spatio-temporal fusion of Landsat-8 and Moderate Resolution Imaging Spectroradiometer (MODIS) data. Remaining parameters were determined through an optimization procedure using the same dataset. The SAFY model was then used for dry aboveground biomass and yield estimation at a subfield scale for corn (Zea mays) and soybean (Glycine max). The results show that the improved TSF method is able to determine crop phenology stages with an error of <5 days. After calibration, the SAFY model can reproduce daily Green Leaf Area Index (GLAI) effectively throughout the growing season and estimate crop biomass and yield accurately at a subfield scale using three Landsat-8 and 10 MODIS images acquired for the season. This approach improves the accuracy of biomass estimation by about 4% in relative Root Mean Square Error (RRMSE), compared with the SAFY model without forcing the phenology-related parameters. The RMSE of yield estimation is 146.33 g/m2 for corn and 82.86 g/m2 for soybean. The proposed framework is applicable for local-scale or field-scale phenology detection and yield estimation.


Subject(s)
Biomass , Crop Production/methods , Glycine max/physiology , Satellite Imagery/methods , Zea mays/physiology , Crop Production/instrumentation , Satellite Imagery/instrumentation , Glycine max/growth & development , Zea mays/growth & development
5.
BMC Infect Dis ; 18(1): 602, 2018 Nov 29.
Article in English | MEDLINE | ID: mdl-30497412

ABSTRACT

BACKGROUND: Leptospirosis is an important zoonotic disease worldwide, caused by spirochetes bacteria of the genus Leptospira. In Thailand, cattle and buffalo used in agriculture are in close contact with human beings. During flooding, bacteria can quickly spread throughout an environment, increasing the risk of leptospirosis infection. The aim of this study was to investigate the association of several environmental factors with cattle and buffalo leptospirosis cases in Thailand, with a focus on flooding. METHOD: A total of 3571 urine samples were collected from cattle and buffalo in 107 districts by field veterinarians from January 2011 to February 2013. All samples were examined for the presence of leptospirosis infection by loop-mediated isothermal amplification (LAMP). Environmental data, including rainfall, percentage of flooded area (estimated by remote sensing), average elevation, and human and livestock population density were used to build a generalized linear mixed model. RESULTS: A total of 311 out of 3571 (8.43%) urine samples tested positive by the LAMP technique. Positive samples were recorded in 51 out of 107 districts (47.66%). Results showed a significant association between the percentage of the area flooded at district level and leptospirosis infection in cattle and buffalo (p = 0.023). Using this data, a map with a predicted risk of leptospirosis can be developed to help forecast leptospirosis cases in the field. CONCLUSIONS: Our model allows the identification of areas and periods when the risk of leptospirosis infection is higher in cattle and buffalo, mainly due to a seasonal flooding. The increased risk of leptospirosis infection can also be higher in humans too. These areas and periods should be targeted for leptospirosis surveillance and control in both humans and animals.


Subject(s)
Buffaloes/microbiology , Cattle Diseases/epidemiology , Cattle/microbiology , Environmental Monitoring/methods , Floods , Leptospirosis , Remote Sensing Technology , Animals , Cattle Diseases/urine , Cross-Sectional Studies , Forecasting/methods , Geographic Information Systems , Humans , Leptospira/genetics , Leptospirosis/epidemiology , Leptospirosis/urine , Leptospirosis/veterinary , Livestock/microbiology , Nucleic Acid Amplification Techniques , Remote Sensing Technology/instrumentation , Remote Sensing Technology/methods , Satellite Imagery/instrumentation , Satellite Imagery/methods , Seasons , Thailand/epidemiology , Zoonoses/epidemiology
11.
Mar Pollut Bull ; 112(1-2): 327-340, 2016 Nov 15.
Article in English | MEDLINE | ID: mdl-27531143

ABSTRACT

Use of polarimetric SAR data for offshore pollution monitoring is relatively new and shows great potential for operational offshore platform monitoring. This paper describes the development of an automated oil spill detection chain for operational purposes based on C-band (RADARSAT-2) and X-band (TerraSAR-X) fully polarimetric images, wherein we use polarimetric features to characterize oil spills and look-alikes. Numbers of near coincident TerraSAR-X and RADARSAT-2 images have been acquired over offshore platforms. Ten polarimetric feature parameters were extracted from different types of oil and 'look-alike' spots and divided into training and validation dataset. Extracted features were then used to develop a pixel based Artificial Neural Network classifier. Mutual information contents among extracted features were assessed and feature parameters were ranked according to their ability to discriminate between oil spill and look-alike spots. Polarimetric features such as Scattering Diversity, Surface Scattering Fraction and Span proved to be most suitable for operational services.


Subject(s)
Environmental Monitoring/methods , Petroleum Pollution/analysis , Radar , Satellite Imagery/methods , Water Pollutants, Chemical/analysis , Algorithms , Environmental Monitoring/instrumentation , India , Neural Networks, Computer , Satellite Imagery/instrumentation
13.
Sci Rep ; 6: 20880, 2016 Feb 11.
Article in English | MEDLINE | ID: mdl-26864143

ABSTRACT

Extensive forest changes have occurred in monsoon Asia, substantially affecting climate, carbon cycle and biodiversity. Accurate forest cover maps at fine spatial resolutions are required to qualify and quantify these effects. In this study, an algorithm was developed to map forests in 2010, with the use of structure and biomass information from the Advanced Land Observation System (ALOS) Phased Array L-band Synthetic Aperture Radar (PALSAR) mosaic dataset and the phenological information from MODerate Resolution Imaging Spectroradiometer (MOD13Q1 and MOD09A1) products. Our forest map (PALSARMOD50 m F/NF) was assessed through randomly selected ground truth samples from high spatial resolution images and had an overall accuracy of 95%. Total area of forests in monsoon Asia in 2010 was estimated to be ~6.3 × 10(6 )km(2). The distribution of evergreen and deciduous forests agreed reasonably well with the median Normalized Difference Vegetation Index (NDVI) in winter. PALSARMOD50 m F/NF map showed good spatial and areal agreements with selected forest maps generated by the Japan Aerospace Exploration Agency (JAXA F/NF), European Space Agency (ESA F/NF), Boston University (MCD12Q1 F/NF), Food and Agricultural Organization (FAO FRA), and University of Maryland (Landsat forests), but relatively large differences and uncertainties in tropical forests and evergreen and deciduous forests.


Subject(s)
Algorithms , Conservation of Natural Resources/statistics & numerical data , Environmental Monitoring/methods , Satellite Imagery/methods , Asia , Biodiversity , Biomass , Carbon Cycle , Environmental Monitoring/instrumentation , Forests , Geographic Information Systems , Humans , Satellite Imagery/instrumentation , Seasons , Tropical Climate
14.
ScientificWorldJournal ; 2014: 429041, 2014.
Article in English | MEDLINE | ID: mdl-25250378

ABSTRACT

The new generation Chinese high-resolution three-line stereo-mapping satellite Ziyuan 3 (ZY-3) is equipped with three sensors (nadir, backward, and forward views). Its objective is to manufacture the 1 : 50000 topographic map and revise and update the 1 : 25000 topographic map. For the push-broom satellite, the interpolation accuracy of orbit and attitude determines directly the satellite's stereo-mapping accuracy and the position accuracy without ground control point. In this study, a new trajectory model is proposed for ZY-3 in this paper, according to researching and analyzing the orbit and attitude of ZY-3. Using the trajectory data set, the correction and accuracy of the new proposed trajectory are validated and compared with the other models, polynomial model (LPM), piecewise polynomial model (PPM), and Lagrange cubic polynomial model (LCPM). Meanwhile, the differential equation is derivate for the bundle block adjustment. Finally, the correction and practicability of piece-point with weight polynomial model for ZY-3 satellite are validated according to the experiment of geometric correction using the ZY-3 image and orbit and attitude data.


Subject(s)
Models, Statistical , Research/trends , Satellite Imagery/trends , Extraterrestrial Environment , Satellite Imagery/instrumentation
16.
J Zhejiang Univ Sci B ; 14(10): 934-46, 2013 Oct.
Article in English | MEDLINE | ID: mdl-24101210

ABSTRACT

The objective of this study was to investigate the tempo-spatial distribution of paddy rice in Northeast China using moderate resolution imaging spectroradiometer (MODIS) data. We developed an algorithm for detection and estimation of the transplanting and flooding periods of paddy rice with a combination of enhanced vegetation index (EVI) and land surface water index with a central wavelength at 2130 nm (LSWI2130). In two intensive sites in Northeast China, fine resolution satellite imagery was used to validate the performance of the algorithm at pixel and 3×3 pixel window levels, respectively. The commission and omission errors in both of the intensive sites were approximately less than 20%. Based on the algorithm, annual distribution of paddy rice in Northeast China from 2001 to 2009 was mapped and analyzed. The results demonstrated that the MODIS-derived area was highly correlated with published agricultural statistical data with a coefficient of determination (R(2)) value of 0.847. It also revealed a sharp decline in 2003, especially in the Sanjiang Plain located in the northeast of Heilongjiang Province, due to the oversupply and price decline of rice in 2002. These results suggest that the approaches are available for accurate and reliable monitoring of rice cultivated areas and variation on a large scale.


Subject(s)
Agriculture/methods , Geographic Information Systems/instrumentation , Oryza/genetics , Oryza/physiology , Algorithms , China , Environmental Monitoring/methods , Geography , Image Processing, Computer-Assisted , Models, Statistical , Reproducibility of Results , Satellite Imagery/instrumentation , Satellite Imagery/statistics & numerical data , Software , Spatio-Temporal Analysis , Time Factors , Water Purification/methods
17.
Sensors (Basel) ; 13(8): 10725-48, 2013 Aug 16.
Article in English | MEDLINE | ID: mdl-23959237

ABSTRACT

This study evaluates if the temporal stability concept is applicable to a time series of satellite soil moisture images so to extend the common procedure of satellite image validation. The area of study is the Maqu area, which is located in the northeastern part of the Tibetan plateau. The network serves validation purposes of coarse scale (25-50 km) satellite soil moisture products and comprises 20 stations with probes installed at depths of 5, 10, 20, 40, 80 cm. The study period is 2009. The temporal stability concept is applied to all five depths of the soil moisture measuring network and to a time series of satellite-based moisture products from the Advance Microwave Scanning Radiometer (AMSR-E). The in-situ network is also assessed by Pearsons's correlation analysis. Assessments by the temporal stability concept proved to be useful and results suggest that probe measurements at 10 cm depth best match to the satellite observations. The Mean Relative Difference plot for satellite pixels shows that a RMSM pixel can be identified but in our case this pixel does not overlay any in-situ station. Also, the RMSM pixel does not overlay any of the Representative Mean Soil Moisture (RMSM) stations of the five probe depths. Pearson's correlation analysis on in-situ measurements suggests that moisture patterns over time are more persistent than over space. Since this study presents first results on the application of the temporal stability concept to a series of satellite images, we recommend further tests to become more conclusive on effectiveness to broaden the procedure of satellite validation.


Subject(s)
Environmental Monitoring/instrumentation , Satellite Imagery/instrumentation , Soil/chemistry , Transducers , Water/analysis , Equipment Design , Equipment Failure Analysis , Spatio-Temporal Analysis , Tibet
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