Your search keyword '"Stout, Michael Joseph"' showing total 2 results

1. Protocol for assessing soybean antibiosis to Chloridea virescens.

Author

Boiça Júnior, Arlindo Leal, Eduardo, Wellington Ivo, de Souza, Bruno Henrique Sardinha, de Moraes, Renato Franco Oliveira, Louvandini, Helder, Barbosa, José Carlos, and Stout, Michael Joseph

Subjects

SOYBEAN, ANTIBIOSIS, TOBACCO budworm, INTEGRATED pest control, SOYBEAN as feed, LARVAE

Abstract

There are no standard protocols for assessing antibiosis in soybean, Glycine max (L.) (Fabaceae), cultivars to lepidopterans, including tobacco budworm, Chloridea virescens (Fabricius) (Lepidoptera: Noctuidae), an important species that causes damage to soybean crops in several production regions. This study was conducted to assess methodologies to determine the optimal combination of larval density, confinement container size, and plant structure in soybean antibiosis assays to C. virescens. In addition, primary and secondary metabolites in plant structures were analyzed to elucidate potential chemical resistance mechanisms against this lepidopteran. Antibiosis assays to C. virescens in resistant (IAC‐100) and susceptible (BR‐16) soybean cultivars were performed using three larval densities (one, two, and three larvae), two confinement container sizes (150 and 300 ml), and combinations of soybean plant structures (leaves, uncut pods, leaves + uncut pods, cut pods, and leaves + cut pods). Phenol, tannin, fiber, and lignin contents were quantified in the leaves, uncut pods, and grains of the soybean cultivars and related to biological development of C. virescens. Resistance levels in soybean cultivars in antibiosis assays were best differentiated using one larva per 150‐ml confinement container, fed only on soybean leaves. Higher contents of condensed tannins in the leaves of IAC‐100 cultivar may be one of the main chemical mechanisms of resistance to C. virescens. Our study is the first to determine the optimal combination of larval density, confinement container size, and plant structure for antibiosis assays in soybean cultivars to C. virescens. The developed protocol will benefit high‐throughput phenotyping in genetic breeding programs to obtain cultivars resistant to lepidopterans for use in integrated pest management. [ABSTRACT FROM AUTHOR]

Published

2022

2. A fungal endophyte helps plants to tolerate root herbivory through changes in gibberellin and jasmonate signaling.

Author

Cosme, Marco, Lu, Jing, Erb, Matthias, Stout, Michael Joseph, Franken, Philipp, and Wurst, Susanne

Subjects

ENDOPHYTIC fungi, JASMONATE, RICE water weevil, RICE, PLANT hormones

Abstract

Plant-microbe mutualisms can improve plant defense, but the impact of root endophytes on below-ground herbivore interactions remains unknown. We investigated the effects of the root endophyte Piriformospora indica on interactions between rice ( Oryza sativa) plants and its root herbivore rice water weevil ( RWW; Lissorhoptrus oryzophilus), and how plant jasmonic acid ( JA) and GA regulate this tripartite interaction., Glasshouse experiments with wild-type rice and coi1-18 and Eui1- OX mutants combined with nutrient, jasmonate and gene expression analyses were used to test: whether RWW adult herbivory above ground influences subsequent damage caused by larval herbivory below ground; whether P. indica protects plants against RWW; and whether GA and JA signaling mediate these interactions., The endophyte induced plant tolerance to root herbivory. RWW adults and larvae acted synergistically via JA signaling to reduce root growth, while endophyte-elicited GA biosynthesis suppressed the herbivore-induced JA in roots and recovered plant growth., Our study shows for the first time the impact of a root endophyte on plant defense against below-ground herbivores, adds to growing evidence that induced tolerance may be an important root defense, and implicates GA as a signal component of inducible plant tolerance against biotic stress. [ABSTRACT FROM AUTHOR]

Published

2016