Mirjam Zörner
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View article: Root architecture development in stony soils
Root architecture development in stony soils Open
Soils with high stone content represent a challenge to root development, as each stone is an obstacle to root growth. A high stone content also affects soil properties such as temperature or water content, which in turn affects root growth…
View article: CRootBox: a structural–functional modelling framework for root systems
CRootBox: a structural–functional modelling framework for root systems Open
CRootBox is a fast and flexible functional-structural root model that is based on state-of-the-art computational science methods. Its aim is to facilitate modelling of root responses to environmental conditions as well as the impact of roo…
View article: CRootBox: A structural-functional modelling framework for root systems
CRootBox: A structural-functional modelling framework for root systems Open
Background and Aims Root architecture development determines the sites in soil where roots provide input of carbon and take up water and solutes. However, root architecture is difficult to determine experimentally when grown in opaque soil…
View article: Anagallis femina - CRootBox parameter file
Anagallis femina - CRootBox parameter file Open
CRootBox parameter files for Anagalis femina. From:The algorithmic beauty of plant roots: an L-System model for dynamic root growth simulationLeitner D, Klepsch S, Knie A, Schnepf AMathematical and Computer Modelling of Dynamical Systems, …
View article: Brassica oleracea - CRootBox parameter file
Brassica oleracea - CRootBox parameter file Open
CRootBox parameter file for Brassica oleraceafrom:Estimating the parameters of a 3-D root distribution function from root observations with the trench profile method: case study with simulated and field-observed root dataVansteenkiste J, V…
View article: Lupinus albus - CRootBox parameter file
Lupinus albus - CRootBox parameter file Open
CRootbox parameter file for Lupinus albus.from:Recovering Root System Traits Using Image Analysis Exemplified by Two-Dimensional Neutron Radiography Images of Lupine Leitner D, Felderer B, Vontobel P, Schnepf A PLANT PHYSIOLOGY, 164, 24-35…
View article: Sorghum bicolor - CRootBox parameter file
Sorghum bicolor - CRootBox parameter file Open
CRootbox parameter file for Sorghum bicolor.from:NA
View article: Pisum sativum (a) - CRootBox parameter file
Pisum sativum (a) - CRootBox parameter file Open
CRootbox parameter file for Pisum sativum (a).from:Modelling the root system architecture of Poaceae. Can we simulate integrated traits from morphological parameters of growth and branching? Pages L, Picon-Cochard C New Phytologist, 204, 1…
View article: Pisum sativum (d) - CRootBox parameter file
Pisum sativum (d) - CRootBox parameter file Open
CRootbox parameter file for Pisum sativum (d).from:Modelling pea (Pisum sativum) root growth in drying soil. A comparison between observations and model predictions TSEGAYE T, MULLINS C E, DIGGLE A J New Phytologist, 131, 179-189, 1995
View article: Zea mays (5) - CRootBox parameter file
Zea mays (5) - CRootBox parameter file Open
CRootbox parameter file for Zea mays (5).from:Impact of contrasted maize root traits at flowering on water stress tolerance. A simulation study Leitner D, Meunier F, Bodner G, Javaux M, Schnepf A Field Crops Research, 165, 125-137, 2014
View article: Lupinus angustifolius - CRootBox parameter file
Lupinus angustifolius - CRootBox parameter file Open
CRootbox parameter file for Lupinus angustifolius.from:Phenotypic variability and modelling of root structure of wild Lupinus angustifolius genotypes Chen Y L, Dunbabin V M, Postma J A, Diggle A J, Palta J A, Lynch J P, Siddique K H M, Ren…
View article: Zea mays (6) - CRootBox parameter file
Zea mays (6) - CRootBox parameter file Open
CRootbox parameter file for Zea mays (6)from:Impact of contrasted maize root traits at flowering on water stress tolerance. A simulation study Leitner D, Meunier F, Bodner G, Javaux M, Schnepf A Field Crops Research, 165, 125-137, 2014
View article: Lupinus angustifolius - CRootBox parameter file
Lupinus angustifolius - CRootBox parameter file Open
CRootbox parameter file for Lupinus angustifolius.from:Phenotypic variability and modelling of root structure of wild Lupinus angustifolius genotypes Chen Y L, Dunbabin V M, Postma J A, Diggle A J, Palta J A, Lynch J P, Siddique K H M, Ren…
View article: Medicago truncatula - CRootBox parameter file
Medicago truncatula - CRootBox parameter file Open
CRootbox parameter file for Medicago truncatula.from:Root Cortical Aerenchyma Enhances the Growth of Maize on Soils with Suboptimal Availability of Nitrogen, Phosphorus, and Potassium Postma J A, Lynch J P PLANT PHYSIOLOGY, 156, 1190-1201,…
View article: Brassica oleracea - CRootBox parameter file
Brassica oleracea - CRootBox parameter file Open
CRootBox parameter file for Brassica oleraceafrom:Estimating the parameters of a 3-D root distribution function from root observations with the trench profile method: case study with simulated and field-observed root dataVansteenkiste J, V…
View article: Juncus squarrosus - CRootBox parameter file
Juncus squarrosus - CRootBox parameter file Open
CRootbox parameter file for Juncus squarrosus.from:Simultaneous modeling of transient three-dimensional root growth and soil water flow Clausnitzer V, Hopmans J W Plant and Soil, 164, 299-314, 1994
View article: Triticum aestivum - CRootBox parameter file
Triticum aestivum - CRootBox parameter file Open
CRootbox parameter file for Triticum aestivum.from:Simulation of wheat growth using the 3D root architecture model SPACSYS: Validation and sensitivity analysis Bingham I J, Wu L European Journal of Agronomy, 34, 181-189, 2011
View article: Crypsis aculeata - CRootBox parameter file
Crypsis aculeata - CRootBox parameter file Open
CRootbox parameter file for Crypsis aculeata. from:Simultaneous modeling of transient three-dimensional root growth and soil water flowClausnitzer V, Hopmans J WPlant and Soil, 164, 299-314, 1994
View article: Zea mays (1) - CRootBox parameter file
Zea mays (1) - CRootBox parameter file Open
CRootbox parameter file for Zea mays (1).from:The algorithmic beauty of plant roots. an L-System model for dynamic root growth simulation Leitner D, Klepsch S, Knie A, Schnepf A Mathematical and Computer Modelling of Dynamical Systems, 16,…
View article: Zea mays (4) - CRootBox parameter file
Zea mays (4) - CRootBox parameter file Open
CRootbox parameter file for Zea mays (4).from:Impact of contrasted maize root traits at flowering on water stress tolerance. A simulation study Leitner D, Meunier F, Bodner G, Javaux M, Schnepf A Field Crops Research, 165, 125-137, 2014
View article: Noccaea caerulescens - CRootBox parameter file
Noccaea caerulescens - CRootBox parameter file Open
CRootbox parameter file for Noccaea caerulescens.from:Potential and actual root growth variations in root systems: modeling them with a two-step stochastic approach Pages L, Xie J, Serra V Plant and Soil, 373, 723-735, 2013
View article: Pisum sativum (c) - CRootBox parameter file
Pisum sativum (c) - CRootBox parameter file Open
CRootbox parameter file for Pisum sativum (c).from:Modelling pea (Pisum sativum) root growth in drying soil. A comparison between observations and model predictions TSEGAYE T, MULLINS C E, DIGGLE A J New Phytologist, 131, 179-189, 1995
View article: Noccaea caerulescens - CRootBox parameter file
Noccaea caerulescens - CRootBox parameter file Open
CRootbox parameter file for Noccaea caerulescens.from:Potential and actual root growth variations in root systems: modeling them with a two-step stochastic approach Pages L, Xie J, Serra V Plant and Soil, 373, 723-735, 2013
View article: Zea mays (3) - CRootBox parameter file
Zea mays (3) - CRootBox parameter file Open
CRootbox parameter file for Zea mays (3).from:Root Cortical Aerenchyma Enhances the Growth of Maize on Soils with Suboptimal Availability of Nitrogen, Phosphorus, and Potassium Postma J A, Lynch J P PLANT PHYSIOLOGY, 156, 1190-1201, 2011
View article: Pisum sativum (b) - CRootBox parameter file
Pisum sativum (b) - CRootBox parameter file Open
CRootbox parameter file for Pisum sativum (b).from:Modelling pea (Pisum sativum) root growth in drying soil. A comparison between observations and model predictions TSEGAYE T, MULLINS C E, DIGGLE A J New Phytologist, 131, 179-189, 1995
View article: Zea mays (2) - CRootBox parameter file
Zea mays (2) - CRootBox parameter file Open
CRootbox parameter file for Zea mays (2).from:Calibration and evaluation of ArchiSimple, a simple model of root system architecture Pages L, Becel C, Boukcim H, Moreau D, Nguyen C, Voisin A Ecological Modelling, 290, 76-84, 2014
View article: Brassica napus - CRootBox parameter file
Brassica napus - CRootBox parameter file Open
CRootBox parameter file for Brassica napus. from:The algorithmic beauty of plant roots: an L-System model for dynamic root growth simulationLeitner D, Klepsch S, Knie A, Schnepf AMathematical and Computer Modelling of Dynamical Systems, 16…
View article: Helianthus annuus
Helianthus annuus Open
CRootbox parameter file for Helianthus annuus.from:Potential and actual root growth variations in root systems: modeling them with a two-step stochastic approach Pages L, Xie J, Serra V Plant and Soil, 373, 723-735, 2013
View article: Crypsis aculeata - CRootBox parameter file
Crypsis aculeata - CRootBox parameter file Open
CRootbox parameter file for Crypsis aculeata. from:Simultaneous modeling of transient three-dimensional root growth and soil water flowClausnitzer V, Hopmans J WPlant and Soil, 164, 299-314, 1994
View article: Zea mays (3) - CRootBox parameter file
Zea mays (3) - CRootBox parameter file Open
CRootbox parameter file for Zea mays (3).from:Root Cortical Aerenchyma Enhances the Growth of Maize on Soils with Suboptimal Availability of Nitrogen, Phosphorus, and Potassium Postma J A, Lynch J P PLANT PHYSIOLOGY, 156, 1190-1201, 2011