Development of Heterodera glycines Life Stages as Influenced by Temperature

D. G. Alston; D. P. Schmitt

Development of Heterodera glycines Life Stages as Influenced by Temperature

Authors

D. G. Alston
D. P. Schmitt

Abstract

The effects of temperature on rates of development of Heterodera glycines egg and juvenile stages were examined as a basis for predicting generation times of the nematode on soybean. The relationship of temperature to H. glycines embryonic development between 15 and 30 C was described by a linear model, The calculated basal temperature threshold was 5 C. Thermal optimum for embryogenesis and hatch with low mortality was 24 C. Development proceeded to first-stage juvenile at 10 C and to second-stage juvenile at 15-30 C. Hatch occurred at 20-30 C. At 36 C, development proceeded to the four-cell stage, then the eggs died. The range of diurnal soil temperature fluctuation and accumulated degree-days between 5 and 30 C (DD5/30) had an impact on rate of development of juveniles in soybean roots. From early June to early July, H. glycines required 534 + 24 DD5/30 (4 weeks) to complete a life cycle in the field. During the midseason (July and August), life cycles were completed in 3 weeks and 429 ± 24 DD5/30 were accumulated. Late in the season (September to November), declining soil temperatures were associated with generation times of 4 weeks and slower rates of development. Key words: development rate, ecology, Glycine max, hatching rate, Heterodera glycines, mortality rate, soybean cyst nematode, threshold temperature.

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Published

1988-07-15

Issue

Vol. 20, No. 3 (July 1988)

Section

Articles

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