Abstract
Soil-borne pathogens cause severe root rot of pea (Pisum sativum L.) and are a major constraint to pea cultivation worldwide. Resistance against individual pathogen species is often ineffective in the field where multiple pathogens form a pea root rot complex (PRRC) and conjointly infect pea plants. On the other hand, various beneficial plant-microbe interactions are known that offer opportunities to strengthen plant health. To account for the whole rhizosphere microbiome in the assessment of root rot resistance in pea, an infested soil-based resistance screening assay was established. The infested soil originated from a field that showed severe pea root rot in the past. Initially, amplicon sequencing was employed to characterize the fungal microbiome of diseased pea roots grown in the infested soil. The amplicon sequencing evidenced a diverse fungal community in the roots including pea pathogens Fusarium oxysporum, F. solani, Didymella sp., and Rhizoctonia solani and antagonists such as Clonostachys rosea and several mycorrhizal species. The screening system allowed for a reproducible assessment of disease parameters among 261 pea cultivars, breeding lines, and landraces grown for 21 days under controlled conditions. A sterile soil control treatment was used to calculate relative shoot and root biomass in order to compare growth performance of pea lines with highly different growth morphologies. Broad sense heritability was calculated from linear mixed model estimated variance components for all traits. Emergence on the infested soil showed high (H2 = 0.89), root rot index (H2 = 0.43), and relative shoot dry weight (H2 = 0.51) medium heritability. The resistance screening allowed for a reproducible distinction between PRRC susceptible and resistant pea lines. The combined assessment of root rot index and relative shoot dry weight allowed to identify resistant (low root rot index) and tolerant pea lines (low relative shoot dry weight at moderate to high root rot index). We conclude that relative shoot dry weight is a valuable trait to select disease tolerant pea lines. Subsequently, the resistance ranking was verified in an on-farm experiment with a subset of pea lines. We found a significant correlation (rs = 0.73, p = 0.03) between the controlled conditions and the resistance ranking in a field with high PRRC infestation. The screening system allows to predict PRRC resistance for a given field site and offers a tool for selection at the seedling stage in breeding nurseries. Using the complexity of the infested field soil, the screening system provides opportunities to study plant resistance in the light of diverse plant-microbe interactions occurring in the rhizosphere.
Highlights
Pea (Pisum sativum L.) is an important protein sources for human consumption and animal feed
The most devastating diseases are caused by fungal pathogens, including various species of the genus Fusarium, Didymella pinodes, D. pinodella, Rhizoctonia solani, Sclerotinia sclerotiorum, and the oomycetes Aphanomyces euteiches and Pythium spp. (Wille et al, 2019)
This study is based on a set of 261 pea (Pisum sativum, L.) lines, including 177 genebank accessions from the USDA-ARS GRIN Pea Core Collection1, 47 advanced breeding lines provided by a private organic breeder organization (Getreidezüchtung Peter Kunz, Switzerland)2 and 34 registered cultivars from Europe (Supplementary Table 1)
Summary
Pea (Pisum sativum L.) is an important protein sources for human consumption and animal feed. It has an annual worldwide production of 36 mega tons, making it the second most important pulse after common bean (FAO, 2019). The most devastating diseases are caused by fungal pathogens, including various species of the genus Fusarium (most notably, F. solani, F. avenaceum, and F. oxysporum), Didymella pinodes (formerly known as Mycosphaerella pinodes), D. pinodella These pathogens are responsible for severe seed rot, damping-off, seedling blight, and root and foot rot
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