Author:
Bilgrami Anwar L.,Gaugler Randy,Shapiro-Ilan David I.,Adams Byron J.
Abstract
Abstract
The stability of traits important for biological control was studied in the
entomopathogenic nematode-bacteria complexes Heterorhabditis bacteriophora
and Steinernema carpocapsae. Five experimental lines of each species were
subcultured for 20 serial passages in Galleria mellonella larvae to assess
trait stability. Subculturing impaired performance of both H. bacteriophora
and S. carpocapsae. Virulence, heat tolerance and fecundity deteriorated in
all H. bacteriophora experimental lines, and four out of five experimental
lines deteriorated in host-finding ability. All S. carpocapsae experimental
lines deteriorated in heat tolerance and nictation, and four out of five
experimental lines declined for reproductive capacity, whereas virulence
declined in two experimental lines. Determination of whether trait
deterioration was due to changes in nematode, bacteria, or both symbiotic
partners was tested by exchanging nematodes or bacteria from control
populations with nematodes or bacteria from the most deteriorated
experimental lines and assessing trait recovery. The source of deterioration
varied according to trait, but only the bacterial partner played a role in
trait reductions for every trait and species, whereas the nematode was the
main source only for S. carpocapsae nictation. These results emphasise the
important role each symbiotic partner plays in the stability and expression
of beneficial traits.
Subject
Agronomy and Crop Science,Ecology, Evolution, Behavior and Systematics
Cited by
49 articles.
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