Iowa State University, Armstrong and Neely-Kinyon Research and Demonstration Farms ISRF09-12

Companion Planting: A Method for Sustainable

RFR-A9099 The specimens were planted outside on May 15. Vegetable species were planted at Leah Riesselman, ag specialist random in two replications that consisted of Armstrong Research Farm six, 3 × 5 ft blocks, one block for every companion species in addition to a Introduction control block. A 3-ft walk-way separated For centuries, companion planting has been each vegetable replication. Transplants were practiced by many tribal groups throughout then planted according to their individual the world. Three Sisters is one example of spacing requirements. Switchgrass companion planting known to Native was applied a week following the transplant American tribes. Corn, , and squash date. Irrigation scheduling was via hand are grown together, providing high yielding, application and on an as-needed basis. high-quality with a minimal were staked prior to bloom. environmental impact. Companion planting has taken a growing interest among today’s Plants were evaluated according to insect conventional farmers. damage to leaves, flowers, and fruits. No insecticide or was used to control The objectives of this study were to pest outbreaks. determine if there is an advantage to intercrop plants for enhanced growth and to Results and Discussion determine if selected companion plants The spring and summer growing season was would provide protection against common unseasonably wet and mild at the Armstrong vegetable pests by methods of trap cropping Research Farm. Consequently, many factors and biochemical pest suppression. of disease and insect damage arose that normally wouldn’t occur under typical Materials and Methods growing conditions. Rainfall total for May Five vegetable species and five companion was 2.06 in. and just under 6.00 in. for June. plant species were grown from seed in the Total rainfall for the 4 months of the study for 6 to 10 weeks. The five was 20.42 in.; almost 60% of the yearly vegetable species and the five companion average of rainfall for Iowa (Figure 1). plant species included in the study were: Temperatures averaged in the low to middle broccoli, Brassica oleracea var. botrytis 70s in the months of May and June, and in Packman; cabbage, Brassica oleracea var. the upper 70s in the months of July and capitata; lettuce, Lactuca sativa August (Figure 2). During the week of Buttercrunch; tomato, Lycopersicon June 21, temperatures averaged 90 degrees, esculentum Celebrity; zuchinni, leading to the bolting and splitting of lettuce, pepo, marigold, spp. African cabbage, and broccoli plots, thus data Marigold; onion, Allium cepa Red Zeppelin; collection of these three crops ended. nasturtium, Topaeolum majus; thyme, Thymus vulgaris; and , Ocimum The first sign of cabbage worm, (Pieris bailicum. rapae), damage to B. oleracea var. capitata appeared in the control plots on June 9. The Iowa State University, Armstrong and Neely-Kinyon Research and Demonstration Farms ISRF09-12 primary damage consisted of profound leaf completely destroyed and the roots showed defoliation and larvae burrowing holes into signs of bacterial wilt. On June 9, bacterial the cabbage head. In addition, fecal matter wilt was present in the onion companion from cabbage worm and cabbage looper plots. On June 16, juvenile leaves (Trichoplusia ni) was found. In comparison, reestablished on the zucchini plants in the on June 23 slight leaf defoliation was found marigold, nasturtium, and thyme plots, and in the marigold companion plots of cabbage re-growth was delayed in the basil, onion, due to cabbage looper. The onion, and control plots. Bacterial wilt from striped nasturtium, basil, and thyme plots had the cucumber beetle spread to the thyme plots best resistance toward cabbage worm and on July 7. On August 3, a second generation cabbage looper (Figure 3). of striped cucumber beetles emerged resulting in moderate leaf skeletonization Damage from cabbage worm and cabbage and continued spread of bacterial wilt in the looper also appeared in the broccoli marigold plots. replications. However, the basil plots were infested with cabbage worm the earliest and On July 21, squash bug (Anasa tristis) eggs were the most severe. Control plots showed were found on the underside of the zucchini some sign of infestation on June 5, but leaves in the basil companion plots. Nine damage from cabbage loopers was moderate days after the first sign of eggs, squash bug (Figure 4). The marigold, onion, and nymphs were found in all plots except the nasturtium plots appeared to have a small nasturtium plots. The first sign of squash population of cabbage loopers on the bug in the nasturtium plots didn’t appear broccoli head, but no significant damage until August 11. The marigold plots and the was evident. The thyme plots showed no nasturtium plots showed the best sign of pest damage. resistance/tolerance to striped cucumber beetle and squash bug. The primary insect that infested L. sativa Buttercrunch was cabbage looper. The first The only pest that appeared on the tomato sign of damage appeared on June 15 in the plants was the yellowstriped armyworm marigold, basil, and control plots (Figure 5). (Spodoptera ornithogalli). The primary Damage included leaf defoliation and damage consisted of larvae feeding on the remnants of fecal matter, which made the fruits. Damage first occurred in the marigold plants unmarketable. The remaining and control plots, followed by the onion and companion plots of onion, nasturtium, and nasturtium plots. Basil and thyme illustrated thyme exhibited high resistance to cabbage the best resistance toward S. ornithogalli. looper damage. Conclusively, all the control plots showed Two destructive pests infested the zucchini the most insect and pest damage, which plots. Initially, striped cucumber beetle indicates any with a (Acalymma trivittatum), damage started in companion plant is more advantageous than all the companion plots except nasturtium none. Thyme, nasturtium, and onion (Figure 6). On June 5, striped cucumber exhibited the best resistance of cabbage beetle populations increased, which resulted worm, weevil, and cabbage looper for the in heavy skeletonization of the flowers and three cole crops (broccoli, cabbage, and mature leaves. The control plot damage was lettuce). Marigold intercropped with so severe that all the flowers were zucchini demonstrated the best resistance to Iowa State University, Armstrong and Neely-Kinyon Research and Demonstration Farms ISRF09-12 cucumber beetle, and both marigold and and mild temperatures has an effect on pest nasturtium had equal resistance to squash resistance. bug damage. Tomato insect damage was the least in the basil and thyme plots. Further Acknowledgements investigation will determine if there is Thanks to Bernard Havlovic, Armstrong statistical difference in the climatic Research Farm superintendent, and Randy conditions of the spring and fall growing Breach, ag specialist, for their assistance in seasons, and whether the unseasonably wet this study.

Figure 1. Weekly rainfall totals for the months of Figure 3. P. rapae and T. ni damage to the cabbage May, June, July, and August. The total rainfall for plots. these four months was 20.42 in.; almost 60% of the average annual total rainfall for Iowa.

Figure 4. Percentage of damage from P. rapae and T. Figure 2. High and low temperatures for the 2009 ni resistance to broccoli. growing season.

Iowa State University, Armstrong and Neely-Kinyon Research and Demonstration Farms ISRF09-12

Figure 7. Percentage of damage in the tomato

Figure 5. T. ni resistance to lettuce plots. plots from S. ornithogalli.

Figure 6. Comparison of the percentage of infestation in the zucchini plots from A. trivittatum and A. tristis.