Mathematical description of rooting profiles of agricultural crops and its effect on transpiration prediction by a hydrological model
The geometry of rooting systems is important for modeling water flows in the soil-plant-atmosphere continuum. Measured information about root density can be summarized in adjustable equations applied in hydrological models. We present such descriptive functions used to model root density distribution over depth and evaluate their quality of fit to measured crop root density profiles retrieved from the literature. An equation is presented to calculate the mean root half-distance as a function of depth from root length density profiles as used in single root models for water uptake. To assess the importance of the shape of the root length density profile in hydrological modeling, the sensitivity of actual transpiration predictions of a hydrological model to the shape of root length density profiles is analyzed using 38 years of meteorological data from Southeast Brazil. The cumulative root density distributions covering the most important agricultural crops (in terms of area) were found to be well described by the logistic function or the Gompertz function. Root length density distribution has a consistent effect on relative transpiration, hence on relative yield, but the common approach to predict transpiration reduction and irrigation requirement from soil water storage or average water content is shown to be only partially supported by simulation results.
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| Format: | Article/Letter to editor biblioteca |
| Language: | English |
| Subjects: | Root density, Root water uptake, Transpiration, |
| Online Access: | https://research.wur.nl/en/publications/mathematical-description-of-rooting-profiles-of-agricultural-crop |
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dig-wur-nl-wurpubs-5756352024-12-04 Metselaar, Klaas Pinheiro, Everton A.R. de Jong van Lier, Quirijn Article/Letter to editor Soil Systems 3 (2019) 3 ISSN: 2571-8789 Mathematical description of rooting profiles of agricultural crops and its effect on transpiration prediction by a hydrological model 2019 The geometry of rooting systems is important for modeling water flows in the soil-plant-atmosphere continuum. Measured information about root density can be summarized in adjustable equations applied in hydrological models. We present such descriptive functions used to model root density distribution over depth and evaluate their quality of fit to measured crop root density profiles retrieved from the literature. An equation is presented to calculate the mean root half-distance as a function of depth from root length density profiles as used in single root models for water uptake. To assess the importance of the shape of the root length density profile in hydrological modeling, the sensitivity of actual transpiration predictions of a hydrological model to the shape of root length density profiles is analyzed using 38 years of meteorological data from Southeast Brazil. The cumulative root density distributions covering the most important agricultural crops (in terms of area) were found to be well described by the logistic function or the Gompertz function. Root length density distribution has a consistent effect on relative transpiration, hence on relative yield, but the common approach to predict transpiration reduction and irrigation requirement from soil water storage or average water content is shown to be only partially supported by simulation results. en application/pdf https://research.wur.nl/en/publications/mathematical-description-of-rooting-profiles-of-agricultural-crop 10.3390/soilsystems3030044 https://edepot.wur.nl/538211 Root density Root water uptake Transpiration https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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Root density Root water uptake Transpiration Root density Root water uptake Transpiration |
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Root density Root water uptake Transpiration Root density Root water uptake Transpiration Metselaar, Klaas Pinheiro, Everton A.R. de Jong van Lier, Quirijn Mathematical description of rooting profiles of agricultural crops and its effect on transpiration prediction by a hydrological model |
| description |
The geometry of rooting systems is important for modeling water flows in the soil-plant-atmosphere continuum. Measured information about root density can be summarized in adjustable equations applied in hydrological models. We present such descriptive functions used to model root density distribution over depth and evaluate their quality of fit to measured crop root density profiles retrieved from the literature. An equation is presented to calculate the mean root half-distance as a function of depth from root length density profiles as used in single root models for water uptake. To assess the importance of the shape of the root length density profile in hydrological modeling, the sensitivity of actual transpiration predictions of a hydrological model to the shape of root length density profiles is analyzed using 38 years of meteorological data from Southeast Brazil. The cumulative root density distributions covering the most important agricultural crops (in terms of area) were found to be well described by the logistic function or the Gompertz function. Root length density distribution has a consistent effect on relative transpiration, hence on relative yield, but the common approach to predict transpiration reduction and irrigation requirement from soil water storage or average water content is shown to be only partially supported by simulation results. |
| format |
Article/Letter to editor |
| topic_facet |
Root density Root water uptake Transpiration |
| author |
Metselaar, Klaas Pinheiro, Everton A.R. de Jong van Lier, Quirijn |
| author_facet |
Metselaar, Klaas Pinheiro, Everton A.R. de Jong van Lier, Quirijn |
| author_sort |
Metselaar, Klaas |
| title |
Mathematical description of rooting profiles of agricultural crops and its effect on transpiration prediction by a hydrological model |
| title_short |
Mathematical description of rooting profiles of agricultural crops and its effect on transpiration prediction by a hydrological model |
| title_full |
Mathematical description of rooting profiles of agricultural crops and its effect on transpiration prediction by a hydrological model |
| title_fullStr |
Mathematical description of rooting profiles of agricultural crops and its effect on transpiration prediction by a hydrological model |
| title_full_unstemmed |
Mathematical description of rooting profiles of agricultural crops and its effect on transpiration prediction by a hydrological model |
| title_sort |
mathematical description of rooting profiles of agricultural crops and its effect on transpiration prediction by a hydrological model |
| url |
https://research.wur.nl/en/publications/mathematical-description-of-rooting-profiles-of-agricultural-crop |
| work_keys_str_mv |
AT metselaarklaas mathematicaldescriptionofrootingprofilesofagriculturalcropsanditseffectontranspirationpredictionbyahydrologicalmodel AT pinheiroevertonar mathematicaldescriptionofrootingprofilesofagriculturalcropsanditseffectontranspirationpredictionbyahydrologicalmodel AT dejongvanlierquirijn mathematicaldescriptionofrootingprofilesofagriculturalcropsanditseffectontranspirationpredictionbyahydrologicalmodel |
| _version_ |
1819146057835085824 |