Nicole Hüser scite author profile

Brassinosteroids (BRs) are a group of plant steroid hormones involved in regulating growth, development, and stress responses. Many components of the BR pathway have previously been identified and characterized. However, BR phenotyping experiments are typically performed in a low-throughput manner, such as on Petri plates. Additionally, the BR pathway affects drought responses, but drought experiments are time consuming and difficult to control. To mitigate these issues and increase throughput, we developed the Robotic Assay for Drought (RoAD) system to perform BR and drought response experiments in soil-grown Arabidopsis plants. RoAD is equipped with a robotic arm, a rover, a bench scale, a precisely controlled watering system, an RGB camera, and a laser profilometer. It performs daily weighing, watering, and imaging tasks and is capable of administering BR response assays by watering plants with Propiconazole (PCZ), a BR biosynthesis inhibitor. We developed image processing algorithms for both plant segmentation and phenotypic trait extraction to accurately measure traits including plant area, plant volume, leaf length, and leaf width. We then applied machine learning algorithms that utilize the extracted phenotypic parameters to identify image-derived traits that can distinguish control, drought-treated, and PCZ-treated plants. We carried out PCZ and drought experiments on a set of BR mutants and Arabidopsis accessions with altered BR responses. Finally, we extended the RoAD assays to perform BR response assays using PCZ in Zea mays (maize) plants. This study establishes an automated and non-invasive robotic imaging system as a tool to accurately measure morphological and growth-related traits of Arabidopsis and maize plants in 3D, providing insights into the BR-mediated control of plant growth and stress responses.

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Experimental and numerical characterization of a new structured packing for CO₂ capture

Hüser

Yazgi

Hugen

et al. 2018

AIChE Journal

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Structured packings with a low pressure drop can reduce the energy consumption of CO2 capture plants. In this work, an experimental and a numerical study of a new structured packing with an inclination angle of 75° were carried out. The packing performance was compared to that of a state‐of‐the‐art packing with an inclination angle of 45°. Experimental results revealed that the specific pressure drop can be reduced by over 90%, whereas for the separation efficiency, only a small reduction was found. Simulations were conducted for industrial‐scale flue‐gas conditions of a gas‐fired and a coal‐fired power plant. For the coal‐fired power plant, only a slight reduction of the separation efficiency was found, while for the gas‐fired power plant, there was even no reduction. Thus, both experimental and simulation results revealed a high potential of the new packing, which appears to be a good alternative to conventional packings in CO2 capture applications. © 2018 American Institute of Chemical Engineers AIChE J, 64: 4053–4065, 2018

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Robotic Assay for Drought (RoAD): An Automated Phenotyping System for Brassinosteroid and Drought Response

Xiang

Nolan

Bao

et al. 2020

Preprint

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Brassinosteroids (BRs) are a group of plant steroid hormones involved in regulating growth, development, and stress responses. Many components of the BR pathway have previously been identified and characterized. However, BR phenotyping experiments are typically performed on petri plates and/or in a lowthroughput manner. Additionally, the BR pathway has extensive crosstalk with drought responses, but drought experiments are time-consuming and difficult to control. Thus, we developed Robotic Assay for Drought (RoAD) to perform BR and drought response experiments in soil-grown Arabidopsis plants. RoAD is equipped with a bench scale, a precisely controlled watering system, an RGB camera, and a laser profilometer. It performs daily weighing, watering, and imaging tasks and is capable of administering BR response assays by watering plants with Propiconazole (PCZ), a BR biosynthesis inhibitor. We developed image processing algorithms for both plant segmentation and phenotypic trait extraction in order to accurately measure traits in 2-dimensional (2D) and 3-dimensional (3D) spaces including plant surface area, leaf length, and leaf width. We then applied machine learning algorithms that utilized the extracted phenotypic parameters to identify image-derived traits that can distinguish control, drought, and PCZ-treated plants. We carried out PCZ and drought experiments on a set of BR mutants and Arabidopsis accessions with altered BR responses. Finally, we extended the RoAD assays to perform BR response assays using PCZ in Zea mays (maize) plants. This study establishes an automated and non-invasive robotic imaging system as a tool to accurately measure morphological and growth-related traits of Arabidopsis and maize plants, providing insights into the BRmediated control of plant growth and stress responses. Arabidopsis thaliana | Zea mays | brassinosteroid | drought | leaf segmentation | phenotypic traits | plant growth | 2D and 3D imaging

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Nicole Hüser

Reactive absorption in chemical process industry: A review on current activities

A comparative study of different amine-based solvents for CO2-capture using the rate-based approach

Robotic Assay for Drought (RoAD): an automated phenotyping system for brassinosteroid and drought responses

Experimental and numerical characterization of a new structured packing for CO₂ capture

Robotic Assay for Drought (RoAD): An Automated Phenotyping System for Brassinosteroid and Drought Response

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About

Nicole Hüser

Reactive absorption in chemical process industry: A review on current activities

A comparative study of different amine-based solvents for CO2-capture using the rate-based approach

Robotic Assay for Drought (RoAD): an automated phenotyping system for brassinosteroid and drought responses

Experimental and numerical characterization of a new structured packing for CO2 capture

Robotic Assay for Drought (RoAD): An Automated Phenotyping System for Brassinosteroid and Drought Response

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Product

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Experimental and numerical characterization of a new structured packing for CO₂ capture