Cucurbit Genetics Cooperative Report 6:38-39 (article 18) 1983
Todd C. Wehner and Conrad H. Miller
Department of Horticultural Science, North Carolina State University, Raleigh, NC 27650
Plant breeders usually test new experimental lines for several years in replicated, multiple-harvest trials to determine whether the line should be released for production in a particular growing area. However, because of limitations on the amount of land available for trials, or on the amount of seed available for each experimental line, trials are often planted with unbordered plots. Thus, border rows are used only around the outside of the trial so that the lines are not being tested in monoculture, but rather in mixed plantings with different genotypes in adjacent plots.
Competition between different genotypes has been recognized as an important factor causing bias in yield trials of some crops, such as soybean (2). Unbordered plots of soybeans are acceptable for the northern U.S.A., but not for the southern U.S.A. where more foliage growth occurs (1). The objective of this experiment was to determine whether unequal competition occurs in pickling cucumber yield trials planted with unbordered plots.
Methods. Two hybrids (‘Calypso’ and ‘Southern Belle’) and an inbred (‘M 21’), all developed at North Carolina State University, were chosen as pickling cucumbers adapted to the area that had different growth habits. ‘Calypso’ is a tall, indeterminate cultivar, ‘M 21’ is a dwarf, determinate line, and ‘Southern Belle’ is a medium-size, indeterminate cultivar. The 3 lines were planted May 17, 1982 in 3-row plots 4.6 m wide and 6 m long in a randomized complete block design with 6 replications. The 3 lines were planted in 9 combinations of border and center rows. Thus, each of the 3 lines were planted in center rows with either ‘Calypso’, ‘Southern Belle’ or ‘M 21’ in the border rows to simulate bordered or unbordered plots. The center row of each plot was harvested 6 times (twice weekly) from June 24 through July 12. Fruit were graded into 4 sizes by diameter (No. 1 was <26mm, No. 2 was 27–38 mm, No. 3 was 39–50 mm, No. 4 was >51 mm), counted and weighed. Fruit value ($/ha) was calculated using $0.31, $0.14, $0.09, and $0.00 dollars/kg for grades 1, 2, 3 and 4 respectively ($14.00, 6.50, 4.00 and 0.00 dollars/cwt, respectively).
Results. Yield of the dwarf line, ‘M 21’, was significantly reduced when it was grown adjacent to rows of the tall cultivars, ‘Calypso’ and ‘Southern Belle’ (Table 1), Yield of ‘M 21’ was reduced 13% from that of bordered plots (‘M 21’ in the border rows) when the medium-size cultivar, ‘Southern Belle’, was grown in the border rows, and 20% when the large cultivar, ‘Calypso’, was grown in the border rows.
| Table 1. Yield of 3 pickling cucumber lines in bordered (same line in border rows) and unbordered (different line in border rows) plots.z
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| Line planted in the 3-row plot
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Total yield
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Yield ($/ha) in harvest
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| Center | Borders | $/ha | q/ha | 1 | 1–2 | 1–3 | 1–4 | 1–5 |
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| M 21 | M 21 | 2511b | 435b | 277b | 672b | 1281b | 1918b | 2091b |
| S. Belle | 2192* | 392ns | 290ns | 657ns | 1119+ | 1649* | 1814* | |
| Calypso | 1999** | 353* | 271ns | 555ns | 980** | 1505** | 1647** | |
| S. Belle | M 21 | 2161ns | 495ns | 623ns | 1080ns | 1498ns | 1876ns | 1973ns |
| S. Belle | 2054b | 463b | 584b | 1052b | 1442b | 1788b | 1870b | |
| Calypso | 2118ns | 506ns | 557ns | 1073ns | 1444ns | 1803ns | 1929ns | |
| Calypso | M 21 | 2014ns | 492ns | 503ns | 1124+ | 1470ns | 1782ns | 1862ns |
| S. Belle | 1935ns | 481ns | 515ns | 975ns | 1315ns | 1651ns | 1762ns | |
| Calypso | 1954b | 475b | 473b | 990b | 1356b | 1661b | 1771b | |
| LSD (5%) | 278 | 71 | 80 | 148 | 180 | 224 | 226 | |
| Mean (all treatments) | 2104 | 454 | 455 | 909 | 1323 | 1737 | 1858 | |
| CV (%) | 11 | 13 | 15 | 14 | 12 | 11 | 10 | |
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| zVine lengths at first harvest for ‘M 21’, ‘Southern Belle’ (S. Belle) and ‘Calypso’ were 37, 47 and 67 cm, respectively. Data are means over 6 replications and 6 harvests. | ||||||||
| ns,+,*,**Yield not significantly different from bordered plot (b), and significantly different at the 10, 5 and 1% levels, respectively. | ||||||||
Cumulative yield of unbordered plots of ‘M 21’ was reduced both in fruit value and in fruit weight, but only after the second harvest (of 6). That indicated that problems occurred only after the cultivars in the border rows grow large enough to compete with the dwarf plants in the center row of the plot.
Yields of ‘Calypso’ and ‘Southern Belle’ were not significantly affected by the presence of either tall or dwarf lines in adjacent rows. Thus, it appears that yield trials can be conducted with unbordered plots, provided that dwarf, determinate lines are tested in separate trials from tall, indeterminate lines.
Literature Cited
- Hanson, W. D., C. A. Brim and K. Hinson. 1961. Design and analysis of competition studies with an application to field plot competition in the soybean. Crop Sci. 1:255–258.
- Schutz, W. M. and C. A. Brim, 1967. Inter-genotypic competition in soybeans. I. Evaluation of effects and proposed field plot design. Crop Sci. 7:371–376.