The effects of multifactorial stress combination on rice and maize

Author:

Sinha Ranjita1ORCID,Peláez-Vico María Ángeles1,Shostak Benjamin1ORCID,Nguyen Thao Thi2ORCID,Pascual Lidia S3ORCID,Ogden Andrew M1ORCID,Lyu Zhen4,Zandalinas Sara I3ORCID,Joshi Trupti456ORCID,Fritschi Felix B1ORCID,Mittler Ron1ORCID

Affiliation:

1. Division of Plant Science and Technology, College of Agriculture Food and Natural Resources and Interdisciplinary Plant Group, University of Missouri , Columbia, MO 65211 , USA

2. Gehrke Proteomics Center, Christopher S. Bond Life Sciences Center, University of Missouri , Columbia, MO 65211 , USA

3. Department of Biology, Biochemistry and Environmental Sciences, University Jaume I , Av. de Vicent Sos Baynat, s/n , Castelló de la Plana 12071, Spain

4. Department of Electrical Engineering and Computer Science, University of Missouri , Columbia, MO 65211 , USA

5. Institute for Data Science and Informatics and Interdisciplinary Plant Group, University of Missouri , Columbia, MO 65211 , USA

6. Department of Biomedical Informatics, Biostatistics and Medical Epidemiology, Christopher S. Bond Life Sciences Center, University of Missouri , Columbia, MO 65211 , USA

Abstract

Abstract The complexity of environmental factors affecting crops in the field is gradually increasing due to climate change-associated weather events, such as droughts or floods combined with heat waves, coupled with the accumulation of different environmental and agricultural pollutants. The impact of multiple stress conditions on plants was recently termed “multifactorial stress combination” (MFSC) and defined as the occurrence of 3 or more stressors that impact plants simultaneously or sequentially. We recently reported that with the increased number and complexity of different MFSC stressors, the growth and survival of Arabidopsis (Arabidopsis thaliana) seedlings declines, even if the level of each individual stress is low enough to have no significant effect on plants. However, whether MFSC would impact commercial crop cultivars is largely unknown. Here, we reveal that a MFSC of 5 different low-level abiotic stresses (salinity, heat, the herbicide paraquat, phosphorus deficiency, and the heavy metal cadmium), applied in an increasing level of complexity, has a significant negative impact on the growth and biomass of a commercial rice (Oryza sativa) cultivar and a maize (Zea mays) hybrid. Proteomics, element content, and mixOmics analyses of MFSC in rice identified proteins that correlate with the impact of MFSC on rice seedlings, and analysis of 42 different rice genotypes subjected to MFSC revealed substantial genetic variability in responses to this unique state of stress combination. Taken together, our findings reveal that the impacts of MFSC on 2 different crop species are severe and that MFSC may substantially affect agricultural productivity.

Funder

National Science Foundation

Interdisciplinary

Plant Group

University of Missouri

Publisher

Oxford University Press (OUP)

Subject

Plant Science,Genetics,Physiology

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