We present a novel image analysis tool that allows the semiautomated quantification of complex root system architectures in a range of plant species grown and imaged in a variety of ways. The automatic component of RootNav takes a top-down approach, utilizing the powerful expectation maximization classification algorithm to examine regions of the input image, calculating the likelihood that given pixels correspond to roots. This information is used as the basis for an optimization approach to root detection and quantification, which effectively fits a root model to the image data. The resulting user experience is akin to defining routes on a motorist’s satellite navigation system: RootNav makes an initial optimized estimate of paths from th...
Background: Characterizing root system architecture (RSA) is essential to understanding the developm...
Abstract High-throughput root phenotyping in the soil became an indispensable quantitative tool for ...
A plant's ability to maintain or improve its yield under limiting conditions, such as nutrient defic...
This paper outlines a numerical scheme for accurate, detailed, and high-throughput image analysis of...
We present in this paper a novel, semi-automated image analysis software to streamline the quantitat...
Considerable efforts have been made during the last decades to develop HT phenotyping platforms, res...
© The Author(s) 2019. Published by Oxford University Press. BACKGROUND: In recent years quantitative...
Abstract Background Characterizing root system architecture (RSA) is essential to understanding the ...
Abstract Linking root traits to plant functions can enable crop improvement for yield and ecosystem ...
If we want to understand how the environment has shaped the appearance and behavior of living creatu...
Root system traits are important in view of current challenges such as sustainable crop production w...
If we want to understand how the environment has shaped the appearance and behavior of living creatu...
Genetic analyses of plant root systems require large datasets of extracted architectural traits. To ...
Abstract Background Crop breeding based on root system architecture (RSA) optimization is an essenti...
Aims: Root branching is a fundamental phenotypic property of a root system. In this paper we present...
Background: Characterizing root system architecture (RSA) is essential to understanding the developm...
Abstract High-throughput root phenotyping in the soil became an indispensable quantitative tool for ...
A plant's ability to maintain or improve its yield under limiting conditions, such as nutrient defic...
This paper outlines a numerical scheme for accurate, detailed, and high-throughput image analysis of...
We present in this paper a novel, semi-automated image analysis software to streamline the quantitat...
Considerable efforts have been made during the last decades to develop HT phenotyping platforms, res...
© The Author(s) 2019. Published by Oxford University Press. BACKGROUND: In recent years quantitative...
Abstract Background Characterizing root system architecture (RSA) is essential to understanding the ...
Abstract Linking root traits to plant functions can enable crop improvement for yield and ecosystem ...
If we want to understand how the environment has shaped the appearance and behavior of living creatu...
Root system traits are important in view of current challenges such as sustainable crop production w...
If we want to understand how the environment has shaped the appearance and behavior of living creatu...
Genetic analyses of plant root systems require large datasets of extracted architectural traits. To ...
Abstract Background Crop breeding based on root system architecture (RSA) optimization is an essenti...
Aims: Root branching is a fundamental phenotypic property of a root system. In this paper we present...
Background: Characterizing root system architecture (RSA) is essential to understanding the developm...
Abstract High-throughput root phenotyping in the soil became an indispensable quantitative tool for ...
A plant's ability to maintain or improve its yield under limiting conditions, such as nutrient defic...