Vineyard diseases detection: a case study on the influence of weather instruments' calibration and positioning
ABSTRACT Weather‐monitoring instruments installed on hill and mountain agricultural sites are often forced into non‐ideal positioning due to slopes, tree proximity and other obstacles such as rivers and rocks that primarily affect relative humidity, temperature and solar radiation. Moreover, data fr...
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| Veröffentlicht in: | Meteorological applications 2018-04, Vol.25 (2), p.228-235 |
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| creator | Sanna, Francesca Calvo, Angela Deboli, Roberto Merlone, Andrea |
| description | ABSTRACT
Weather‐monitoring instruments installed on hill and mountain agricultural sites are often forced into non‐ideal positioning due to slopes, tree proximity and other obstacles such as rivers and rocks that primarily affect relative humidity, temperature and solar radiation. Moreover, data from these weather stations do not take into account the measurement uncertainties related to these influences. The aim of this study is to investigate weather instruments' calibration and positioning in a vineyard located in the Monferrato region in northwestern Italy. Meteorological data from two weather stations were analysed metrologically in terms of the evaluation of calibration uncertainty and traceability to the International System of Units (SI), and using a statistical test, with the purpose of evaluating primarily the effect of the sensors' calibration and positioning on sloping hills. To understand these influences better, and in order to improve vineyard disease predictions reducing the use of chemicals in agriculture, the data recorded from the weather stations were included with the calibration uncertainties and used as inputs in an epidemiological forecasting model. The inclusion of the calibration uncertainties and positioning contribution affected disease prediction by up to five days; this can be explained by the effect of the tree canopy's spatial arrangement, which tends to alter the vineyard's microclimate.
Transportable calibration chamber “Earth Dynamics Investigation Experiment (EDIE)”: (a) project drawing, (b) external configuration with thermostat and (c) internal configuration. |
| doi_str_mv | 10.1002/met.1685 |
| format | Article |
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Weather‐monitoring instruments installed on hill and mountain agricultural sites are often forced into non‐ideal positioning due to slopes, tree proximity and other obstacles such as rivers and rocks that primarily affect relative humidity, temperature and solar radiation. Moreover, data from these weather stations do not take into account the measurement uncertainties related to these influences. The aim of this study is to investigate weather instruments' calibration and positioning in a vineyard located in the Monferrato region in northwestern Italy. Meteorological data from two weather stations were analysed metrologically in terms of the evaluation of calibration uncertainty and traceability to the International System of Units (SI), and using a statistical test, with the purpose of evaluating primarily the effect of the sensors' calibration and positioning on sloping hills. To understand these influences better, and in order to improve vineyard disease predictions reducing the use of chemicals in agriculture, the data recorded from the weather stations were included with the calibration uncertainties and used as inputs in an epidemiological forecasting model. The inclusion of the calibration uncertainties and positioning contribution affected disease prediction by up to five days; this can be explained by the effect of the tree canopy's spatial arrangement, which tends to alter the vineyard's microclimate.
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Weather‐monitoring instruments installed on hill and mountain agricultural sites are often forced into non‐ideal positioning due to slopes, tree proximity and other obstacles such as rivers and rocks that primarily affect relative humidity, temperature and solar radiation. Moreover, data from these weather stations do not take into account the measurement uncertainties related to these influences. The aim of this study is to investigate weather instruments' calibration and positioning in a vineyard located in the Monferrato region in northwestern Italy. Meteorological data from two weather stations were analysed metrologically in terms of the evaluation of calibration uncertainty and traceability to the International System of Units (SI), and using a statistical test, with the purpose of evaluating primarily the effect of the sensors' calibration and positioning on sloping hills. To understand these influences better, and in order to improve vineyard disease predictions reducing the use of chemicals in agriculture, the data recorded from the weather stations were included with the calibration uncertainties and used as inputs in an epidemiological forecasting model. The inclusion of the calibration uncertainties and positioning contribution affected disease prediction by up to five days; this can be explained by the effect of the tree canopy's spatial arrangement, which tends to alter the vineyard's microclimate.
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Weather‐monitoring instruments installed on hill and mountain agricultural sites are often forced into non‐ideal positioning due to slopes, tree proximity and other obstacles such as rivers and rocks that primarily affect relative humidity, temperature and solar radiation. Moreover, data from these weather stations do not take into account the measurement uncertainties related to these influences. The aim of this study is to investigate weather instruments' calibration and positioning in a vineyard located in the Monferrato region in northwestern Italy. Meteorological data from two weather stations were analysed metrologically in terms of the evaluation of calibration uncertainty and traceability to the International System of Units (SI), and using a statistical test, with the purpose of evaluating primarily the effect of the sensors' calibration and positioning on sloping hills. To understand these influences better, and in order to improve vineyard disease predictions reducing the use of chemicals in agriculture, the data recorded from the weather stations were included with the calibration uncertainties and used as inputs in an epidemiological forecasting model. The inclusion of the calibration uncertainties and positioning contribution affected disease prediction by up to five days; this can be explained by the effect of the tree canopy's spatial arrangement, which tends to alter the vineyard's microclimate.
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| ispartof | Meteorological applications, 2018-04, Vol.25 (2), p.228-235 |
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| language | eng |
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| source | EZB-FREE-00999 freely available EZB journals; Alma/SFX Local Collection |
| subjects | Agriculture Agrochemicals Calibration Case studies Detection Epidemiology Evaluation Humidity Instruments International System of Units Meteorological data Metrology for Meteorology Microclimate Monitoring instruments Plant cover positioning Relative humidity Rivers Slope Solar radiation Trees Uncertainty Weather weather station Weather stations Wineries & vineyards |
| title | Vineyard diseases detection: a case study on the influence of weather instruments' calibration and positioning |
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