C. G. J. van den Berg scite author profile

Using laser induced fluorescence detection of metastable H2(c 3Π−u, v=0–3, N=1–4) molecules in a beam at different distances from the source, the lifetime of resolved fine structure levels was determined. It was found to be much shorter for the F2 levels (∼150–10 μs for v=0–3, respectively) than for the F1 plus F3 components (several hundred to 70 μs). This is due to a forbidden (ΔN≠0) predissociation by the b 3Σ+u state, which operates preferentially on the F2 levels. Accurate bound–free Franck–Condon factor calculations reproduce the increasing trend of the predissociation rate in going from v=0–3. The absolute predissociation rates from previous theoretical work, however, can only be brought into agreement with the experimental results if they are multiplied with a common scale factor of 38.

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Effect of Late-Season Fungicide Application on Grain Yield and Seed Size Distribution in Wheat and Barley

Entz¹,

Berg²,

Stobbe³

et al. 1990

Can. J. Plant Sci.

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Inheritance of Resistance to Leptosphaeria maculans in Brassica juncea

Keri¹,

Berg²,

McVetty³

et al. 1997

Phytopathology®

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The inheritance of resistance to Leptosphaeria maculans, the causal agent of black leg of crucifers, was studied in Brassica juncea. Three resistant accessions (UM3021, UM3043, and UM3323) and one susceptible accession (UM3132) of B. juncea were crossed in a complete diallel. Parents, F(1), and F(2) progenies were evaluated for all crosses using both cotyledon and stem inoculation. Cotyledon reaction was evaluated with two isolates of L. maculans, but stem reaction was evaluated with one isolate. Disease reactions observed for individual plants were the same for both inoculation methods and for both isolates of the pathogen for cotyledon reaction. No segregation was observed for the crosses between resistant accessions (UM3043 x UM3323 and UM3021 x UM3323), but a few susceptible plants were observed in the F(2) progeny of crosses between resistant parents (UM3021 x UM3043). This was probably due to heterozygosity in some parental plants of UM3021. For crosses be tween the susceptible parent and resistant parents, F(1) plants for two crosses were all resistant. For cross UM3132 x UM3021, some susceptible plants occurred, which was also suggestive of heterozygosity in UM3021. Although resistance in F(1) was dominant, for F(2) populations, segregation fit either 13:3, 3:1, or 1:3 ratios, indicating that resistance can be either adominant or recessive trait. F(3) families derived from some susceptible F(2) plants from crosses UM3021 x UM3132 and UM3043 x UM3132 were evaluated using the cotyledon inoculation method only. Segregation of F(2) plants and F(3) families in crosses involving resistant and susceptible parents indicated that the resistance to L. maculans in B. juncea is controlled by two nuclear genes with dominant recessive epistatic gene action.

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C. G. J. van den Berg

Resistance of oilseedBrassicaspp. to blackleg caused byLeptosphaeria maculans

Variation in pathogenicity ofLeptosphaeria maculansonBrassicaspp. based on cotyledon and stem reactions

The forbidden predissociation of metastable H2(c 3Πu−) molecules studied by state specific lifetime measurements

Effect of Late-Season Fungicide Application on Grain Yield and Seed Size Distribution in Wheat and Barley

Inheritance of Resistance to Leptosphaeria maculans in Brassica juncea

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