Dear Peter, Thank you for your prompt feedback! Well, this is certainly not all, but a (if not the) crucial factor. We will also of course continue with LED spectra experiment and share with you the results. There are so many factors to be considered! We will also investigate the fluorescent tube chamber at the GMI. Issues to consider here are: the type of fluorescent tubes (T8 GMI vs. T5 MFPL), 4 tubes or 6 tubes, watering (some users water from the top!), pot size (height, washing out of nutrients) and soil sieving. Regarding the surrounding LED light I just want to clarify that the LEDs are giving a down pointed light with way less cross-lighting than fluorescent tubes. The experiments are also (if possible) done I the most upper shelf unit to avoid cross-light as good as possible. As discussed, we also could not measure any significant difference in the spectrum irrespective of the position and direction of our spectrometer. But, yes, we will also investigate this! Thanks. ! Attached please find the image of the tray exposed to the full standard LED light spectrum; left side fertilized, right side no treatment. Systematic information will follow. This was just an update and quick fix mail in order to help you as soon as possible (image was taken today, same as the fluo tube image shared in the last mail!). No stress symptoms so far; but a significant difference between treatment and control. Best, Jakub From: Peter Schloegelhofer <peter.schloegelhofer@univie.ac.at> Date: Thursday, 28. November 2019 at 11:34 To: VBCF Pant Sciences Facility user mailing list <plants-user@lists.vbcf.ac.at> Cc: GMI All <gmi.all.intern@gmi.oeaw.ac.at>, "VBCFplants.GRP" <plants@vbcf.ac.at> Subject: Re: [Plants-user] PLANT STRESS NEWS! Please read! Dear Jakub, dear all, many thanks for the info and I am sure that sub-optimally fertilised soil contributes to the stress. I am not convinced though that this is all. I would like to hear more about the GMI chamber that has exclusively fluorescent lamps installed but apparently houses plants without stress symptoms. What soil was used there? As I mentioned to Jakub in an earlier email the plants in chamber #21 (relating to the picture) are still exposed to the light from the LEDs, though not directly. They are grown under fluorescent tubes, but are surrounded by LEDs. Can I/we get some more systematic information on this please. Many thanks and best regards, Peter On 28 Nov 2019, at 11:03, Jez,Jakub <jakub.jez@vbcf.ac.at<mailto:jakub.jez@vbcf.ac.at>> wrote: Dear friends, In the last weeks/months we have been investigating the plant stress issue, mainly focusing on the LED light spectrum. Always comparing to the fluorescent tube standard. Surprisingly, also the fluorescent tube setup shows same plant stress issues! Which was not the case in the very beginning when we have tested and decided for the new type of soil. See picture attached to this mail: Phytotron: #21 Soil: Gramoflor2006; not sieved; with perlite Light: Fluorescent tubes; LD Watering: Flooding twice a week Left side of the tray: WUXAL treated plants (once, after 1 month, 2ml/L) Right side of the tray: untreated plants Our new hypothesis focuses on the soil. In particular, on the soil composition and the available nutrients. From today’s point of view, it looks like the composition of the soil might have changed over the last months (without informing us); but this needs further investigation. The automated watering system (flooding) also eventually contributes negatively to the problem by washing out nutrients; twice a week. Also sieving might be suboptimal. Red leaves are known to be a symptom for Phosphor/Phosphate deficiency. We are in touch with the soil supplier and with APPN soil scientist from the BOKU to find a long-term solution. As a quick fix * you can fertilize your plants with WUXAL fertilizer which is available in the Facility (once after ~1month; 2ml/L; watering from the top). * Use a long-term fertilizer (OSMOCOTE) * Use the old type of soil ED63 Please contact Anneliese in case of questions for the quick fix. We will keep you posted on further steps and present you soon our final results and the long-term solution. Looking forward to your valuable feedback on your quick-fix results. Best wishes, yours PlantS Team <image001.png> Jakub Jez Head, Plant Sciences Facility T +43 1 7962324 7090<tel:+43179623247090> M +43 664 8084 77090<tel:+43%20664%208084%2077090> jakub.jez@vbcf.ac.at<mailto:jakub.jez@vbcf.ac.at> Vienna BioCenter Core Facilities GmbH Dr. Bohr-Gasse 3 1030 Vienna Austria www.vbcf.ac.at<https://www.vbcf.ac.at/> Chair, Austrian Plant Phenotyping Network (APPN<https://www.appn.at/>) and Support Group Member of ESFRI EMPHASIS<https://emphasis.plant-phenotyping.eu/> project Twitter: @VBCF_PlantS<https://twitter.com/VBCF_PlantS> LinkedIn: www.linkedin.com/in/jezjakub<http://www.linkedin.com/in/jezjakub> <image002.png> FFG PHENOPlant<https://www.ffg.at/sites/default/files/allgemeine_downloads/strukturprogramme/FuE-Infrastrukturf%C3%B6rderung/Kurzfassung_PHENOPlant.pdf>: Austrias 1st multi-sensor, high-throughput plant phenotyping infrastructure launching 2021! <IMG_20191127_150054_resized_20191127_043144973[2].jpg>_______________________________________________ plants-user mailing list plants-user@lists.vbcf.ac.at<mailto:plants-user@lists.vbcf.ac.at> https://www.vbcf.ac.at/mailman/listinfo/plants-user Dr. Peter Schlögelhofer Department of Chromosome Biology Max Perutz Labs University of Vienna Dr. Bohr-Gasse 9 1030 Vienna Austria Phone: +43 1 4277 56240 Email: peter.schloegelhofer@univie.ac.at<mailto:peter.schloegelhofer@univie.ac.at>

Dear All, in addition to the VBCF tests sent by Jakub the other day (many thanks!) we also have some interesting additions to make. Please refer to the attached pptx. As you will see, when using the soil from Gramoflor without any additional fertiliser but with fluorescent tubes, plants are perfectly fine during their life-time. The same soil, without fertiliser, leads to severe stress symptoms under LED lights. It is important to note, that plants grown on this non-fertilised soil and fluorescent tubes but exposed to stray light from LEDs develop stress symptoms (not so severe as under direct LED light, but still). This latter point also helps to straighten some ambiguity with respect to some earlier tests made with fluorescent tubes. In this sense, we need to consider two stress factors: light emitted by the LED lamps and sub-optimal soil. The pptx also contains some pictures testing the former ED63 soil and taller pots. We will now evaluate if the "double saved plants” (fertilised soil and fluorescent tubes) perform better for us (meiosis!) than the “single saved plants” (fertilised soil and LEDs). Best regards, Peter p.s.: have a great season break and a smooth transition to 2020!

On 10 Dec 2019, at 17:20, Jez,Jakub <jakub.jez@vbcf.ac.at> wrote:

Dear all,

please find the presentation of the resent results attached to this mail.

Nine different spectral conditions, including the fluorescent tube control, were tested and treated (fertilized). Details of the experiment design are listed in the presentation.

High-resolution pictures/presentation is available for download here (to allow to zoom in):

https://www.dropbox.com/s/jqyp1dsny7c0hmh/plant_stress_investigation_1012201... <https://www.dropbox.com/s/jqyp1dsny7c0hmh/plant_stress_investigation_10122019.pdf?dl=0>

A short summary: Irrespective of the spectral conditions, most of the untreated plants show, to a certain extent, stress symptoms and Anthocyanin accumulation. This applies also to the fluorescent tube control spectrum (!). In this particular experiment the fluorescent tube control shows even the strongest stress symptoms. On the other hand, ALL treated (fertilized) samples look very healthy and do not show any stress symptoms.

This quick test and the literature listed seems to proof our hypothesis: “Photooxidative stress caused by nutrient (Pi?) deficiency”.

We will continue with the investigation focusing on the soil and nutrients. A new type of soil should arrive soon for testing (details see presentation).

Please contact me in case of any questions, comments or complains.

Best wishes, yours PlantS Team!

From: Jakub Jez <jakub.jez@vbcf.ac.at <mailto:jakub.jez@vbcf.ac.at>> Date: Thursday, 28. November 2019 at 11:03 To: GMI All <gmi.all.intern@gmi.oeaw.ac.at <mailto:gmi.all.intern@gmi.oeaw.ac.at>>, VBCF Pant Sciences Facility user mailing list <plants-user@lists.vbcf.ac.at <mailto:plants-user@lists.vbcf.ac.at>> Cc: "VBCFplants.GRP" <plants@vbcf.ac.at <mailto:plants@vbcf.ac.at>> Subject: PLANT STRESS NEWS! Please read!

Dear friends,

In the last weeks/months we have been investigating the plant stress issue, mainly focusing on the LED light spectrum. Always comparing to the fluorescent tube standard. Surprisingly, also the fluorescent tube setup shows same plant stress issues! Which was not the case in the very beginning when we have tested and decided for the new type of soil.

See picture attached to this mail: Phytotron: #21 Soil: Gramoflor2006; not sieved; with perlite Light: Fluorescent tubes; LD Watering: Flooding twice a week Left side of the tray: WUXAL treated plants (once, after 1 month, 2ml/L) Right side of the tray: untreated plants

Our new hypothesis focuses on the soil. In particular, on the soil composition and the available nutrients. From today’s point of view, it looks like the composition of the soil might have changed over the last months (without informing us); but this needs further investigation. The automated watering system (flooding) also eventually contributes negatively to the problem by washing out nutrients; twice a week. Also sieving might be suboptimal.

Red leaves are known to be a symptom for Phosphor/Phosphate deficiency.

We are in touch with the soil supplier and with APPN soil scientist from the BOKU to find a long-term solution.

As a quick fix you can fertilize your plants with WUXAL fertilizer which is available in the Facility (once after ~1month; 2ml/L; watering from the top). Use a long-term fertilizer (OSMOCOTE) Use the old type of soil ED63

Please contact Anneliese in case of questions for the quick fix.

We will keep you posted on further steps and present you soon our final results and the long-term solution.

Looking forward to your valuable feedback on your quick-fix results.

Best wishes, yours PlantS Team

<image001.png> Jakub Jez Head, Plant Sciences Facility T +43 1 7962324 7090 <tel:+43179623247090> M +43 664 8084 77090 <tel:+43%20664%208084%2077090> jakub.jez@vbcf.ac.at <mailto:jakub.jez@vbcf.ac.at> Vienna BioCenter Core Facilities GmbH Dr. Bohr-Gasse 3 1030 Vienna Austria www.vbcf.ac.at <https://www.vbcf.ac.at/>

Chair, Austrian Plant Phenotyping Network (APPN <https://www.appn.at/>) and Support Group Member of ESFRI EMPHASIS <https://emphasis.plant-phenotyping.eu/> project

Twitter: @VBCF_PlantS <https://twitter.com/VBCF_PlantS> LinkedIn: www.linkedin.com/in/jezjakub <http://www.linkedin.com/in/jezjakub> <image002.png>

FFG PHENOPlant <https://www.ffg.at/sites/default/files/allgemeine_downloads/strukturprogramme/FuE-Infrastrukturf%C3%B6rderung/Kurzfassung_PHENOPlant.pdf>: Austrias 1st multi-sensor, high-throughput plant phenotyping infrastructure launching 2021!

<plant_stress_investigation_10122019_2.pdf>_______________________________________________ plants-user mailing list plants-user@lists.vbcf.ac.at <mailto:plants-user@lists.vbcf.ac.at> https://www.vbcf.ac.at/mailman/listinfo/plants-user <https://www.vbcf.ac.at/mailman/listinfo/plants-user> Dr. Peter Schlögelhofer Department of Chromosome Biology Max Perutz Labs University of Vienna

Dr. Bohr-Gasse 9 1030 Vienna Austria Phone: +43 1 4277 56240 Email: peter.schloegelhofer@univie.ac.at