Multi‐trait stability index: A tool for simultaneous selection of soya bean genotypes in drought and saline stress

Drought and salinity are the main limiting environmental factors that restrict the establishment of soya bean plants. In order to recommend genotypes for cultivation under adverse drought and saline stress conditions, multi‐environment trials (MET) are needed. However, MET analysis is usually perfor...

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Bibliographic Details
Published in:Journal of agronomy and crop science (1986) 2020-12, Vol.206 (6), p.815-822
Main Authors: Zuffo, Alan Mario, Steiner, Fábio, Aguilera, Jorge González, Teodoro, Paulo Eduardo, Teodoro, Larissa Pereira Ribeiro, Busch, Aécio
Format: Article
Language:English
Subjects:
abiotic stress
Antibiotics
Beans
Cultivars
Cultivation
Drought
Dry matter
Environmental factors
Genotypes
Germination
Glycine max
multi‐environment
Offspring
osmotic potential
Plant breeding
Polyethylene glycol
Reliability analysis
Salinity
Salinity effects
Seed germination
Seedlings
Sodium chloride
Soybeans
Stability analysis
Stress
Stresses
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Summary:Drought and salinity are the main limiting environmental factors that restrict the establishment of soya bean plants. In order to recommend genotypes for cultivation under adverse drought and saline stress conditions, multi‐environment trials (MET) are needed. However, MET analysis is usually performed considering a single trait, which provides lower reliability in recommending genotypes when compared to multi‐trait analysis. Thus, this study was carried out to investigate the stability of multi‐trait stability index (MTSI) in 46 soya bean cultivars under the effects of drought and saline stress on seed germination and initial seedling growth. Drought and saline stresses were imposed by seed exposure to −0.20 MPa iso‐osmotic solutions with polyethylene glycol—PEG 6000 (119.6 g/L) or NaCl (2.36 g/L) for 12 days at 25°C. The germination rate, seedling length and seedling dry matter were measured. We showed here how genotypic stability can be quantified by MTSI when comparing drought and salinity conditions in relation to non‐stressful environment (control) and how this index can be employed under different conditions. When considering the index for multiple environments, we can select as the most stable genotypes TMG 716 RR, FPS Antares RR, AS 3610 IPRO, NS 7300 IPRO and FPS Solar IPRO among the 46 tested genotypes. Owing to high stability and gains with selection verified for these genotypes under salinity and drought conditions, they can be used as genitors in breeding programs aimed at obtaining offspring with higher resistance to antibiotic stresses.
ISSN:0931-2250
1439-037X
DOI:10.1111/jac.12409