PhotosynQ measurement analysis of Suvita2 and UCR779 in aeroponics system

Analysis of data collected from phenosight facility at BTI

The aeroponics cowpea plants display symptoms of a nutrient imbalance, so we prepared ICPMS samples of aeroponics-grown cowpea shoots/roots and soil-grown cowpea leaves.

This is the EVT data analysis for the PhenoRig experiment imaged May 15-June 1st 2023. The plants in this experiment were TDNA insertion lines disrupting homologous genes of the identified cowpea candidate genes involved in drought response.

Accessions from the UCR cowpea mini-core were used for this phenotyping screen. This code displays data obtained from PhotosynQ measurements taken twice during the experiment, July 13th and 20th. The experiment was performed July 7th-21st, 2022 in Ithaca, NY.

Accessions from the UCR cowpea mini-core were used for this phenotyping screen. This code displays data on evapotranspiration, fresh weight, dry weight, and water content. The experiment was performed July 7th-21st, 2022 in Ithaca, NY.

Accessions from the UCR cowpea mini-core were used for this phenotyping screen. This code displays data obtained from PhotosynQ measurements taken twice during the experiment, June 15th and 22nd. The experiment was performed June 9th-23rd, 2022 in Ithaca, NY.

Accessions from the UCR cowpea mini-core were used for this phenotyping screen. This code displays data on evapotranspiration, fresh weight, dry weight, and water content. The experiment was performed June 9th-23rd, 2022 in Ithaca, NY.

Accessions from the UCR cowpea mini-core were used for this phenotyping screen. This code displays data obtained from PhotosynQ measurements taken twice during the experiment, May 11th and 18th. The experiment was performed May 5th - 19th, 2022 in Ithaca, NY.

Accessions from the UCR cowpea mini-core were used for this phenotyping screen. This code displays data on evapotranspiration, fresh weight, dry weight, and water content. The experiment was performed May 5th - 19th, 2022 in Ithaca, NY.

Accessions from the UCR cowpea mini-core were used for this phenotyping screen. This code displays data obtained from PhotosynQ measurements taken twice during the experiment, April 27th and May 3rd. The experiment was performed April 21st-May 5th, 2022 in Ithaca, NY.

Accessions from the UCR cowpea mini-core were used for this phenotyping screen. This code displays data on evapotranspiration, fresh weight, dry weight, and water content. The experiment was performed April 21st-May 5th, 2022 in Ithaca, NY.

Accessions from the UCR cowpea mini-core were used for this phenotyping screen. This code displays data obtained from PhotosynQ measurements taken twice during the experiment, April 13th and 20th. The experiment was performed April 7th-21st, 2022 in Ithaca, NY.

Accessions from the UCR cowpea mini-core were used for this phenotyping screen. This code displays data on evapotranspiration, fresh weight, dry weight, and water content. The experiment was performed April 7th-21st, 2022 in Ithaca, NY.

Accessions from the UCR cowpea mini-core were used for this phenotyping screen. This code displays data obtained from PhotosynQ measurements taken twice during the experiment, March 9th and 16th. The experiment was performed March 2nd-17th, 2022 in Ithaca, NY.

Accessions from the UCR cowpea mini-core were used for this phenotyping screen. This code displays data on evapotranspiration, fresh weight, dry weight, and water content. The experiment was performed March 2nd-17th, 2022 in Ithaca, NY.

This is the root system architecture analysis for tDNA insertion lines that disrupt the function of different loci of DUF247 in Arabidopsis

This is the root system architecture analysis for tDNA insertion lines that target different loci of DUF247 in Arabidopsis

This markdown was created on 2022/01/06 to examine and fix the side view image analysis for the Fall 2021 Cowpea experiment. When Leon initially made the graphs, many pots' leaf area fluctuated, so we had to scan through the images to find irregularities. What was found: remove the following time stamps (details in LabArchives): 2021.10.22-13-15.22.11 (empty images) 2021.10.13-15.46.26 (hand in image) 2021.10.20-14.33.44 (repeat of pot #51) 2021.10.22-13.40.34 (empty images) Two pots were skipped on two different days, so I want to make sure the timestamps are correctly aligned: pot 99 should be 2021.10.20-12.00.36 pot 27 should be 2021.10.22-14.07.45

This document has the remaining plots from this analysis

This document has the data wrangling and beginning of the plotting for PhotosynQ data collected on five cowpea accessions phenotyped in Fall 2021