DURHAM, N.H. — Spring gardening in the Northeast relies on cool-weather crops — those that thrive in cooler temperatures (70 degrees or below), can be planted when soil and air temperatures reach 40 degrees Fahrenheit, and can survive light frosts. And this categorization certainly reflects the crops grown in the region, especially those in the Brassica genus. For example, in 2017, Granite State farmers produced close to 150,000 pounds of broccoli, upwards of 300,000 pounds of cabbage heads, more than 287,000 pounds of cauliflower and 220,500 pounds of kale—all cold-weather Brassica plants. Brussels sprouts, however, are grown sparingly in New Hampshire, hampered partially by pests such as cabbage aphids as well as uncertainty of yields and adaptability across available varieties for commercial and backyard enthusiasts. New research from the New Hampshire Agricultural Experiment Station is helping northern New England growers develop best management practices to overcome these challenges.

Brussels sprouts (Brassica oleracea var. gemmifera) are usually sown indoors in mid-May in New England before they are transplanted outdoors in late May or mid-June. Requiring about three or more months of grow time in the ground, they should be ready for harvest by September through November. A newly published study—led by New Hampshire Agricultural Experiment Station researcher Becky Sideman—examined the benefits of removing new growth occurring at the tips of the plants in the shoot apical meristem, or “topping,” on 23 different Brussels sprout cultivars grown in the Northeast. The research, which took place over the growing seasons of 2013–2015 and 2017, examined early and mid-season cultivars and assessed yield and sprout size of topped and un-topped plants.

“Brussels sprout is a quintessential fall and early winter vegetable that can easily be grown in New England,” said Sideman, professor of horticulture at the UNH College of Life Sciences and Agriculture. “Worldwide, however, Brussels sprout is mostly grown commercial in areas with cool mild climates, such as California and the Pacific Northwest, and in the United Kingdom and the Netherlands.”

“As a result, many varieties are adapted to extremely long and mild growing seasons, and because varieties often perform differently from one another, it’s important to evaluate modern varieties in this region to identify those that perform well in our climate,” she added.

When harvesting Brussels sprouts in the Northeast, timing is critical. Harvesting after a frost reduces the sprouts’ bitterness but freeze damage can occur if plants are exposed to temperatures less than 14 F, resulting in a narrow harvest window for growers in cooler climates. Furthermore, the selection of cultivars and the planting date can both impact total yield, bud (or sprout) enlargement and the optimal harvest date. Alternaria blight, caused by Alternaria sp., also limits production of Brussels sprout in this region of the country, however disease severity is greatly affected by environmental conditions and varies by season.

“In recent years especially, high populations of the invasive cabbage aphid (Brevicoryne brassicae) have also limited production of Brussels sprout in the Northeast,” said Sideman. “And unfortunately, in this study we didn’t see much difference in certain varieties being less susceptible to the cabbage aphid.”

Topping is a common practice to increase yield of Brussel sprouts, but it must occur at the right time. Early removal causes terminal buds (i.e., the sprouts) to bolt and limits the length of the harvested stalk. Building upon earlier work in this field, the scientists found that topping can increase marketable yield and the uniformity of stalk growth in Brussels sprouts while decreasing the proportion of under- or oversized sprouts. Early and midseason cultivars showed increased yields in response to topping, but topping did not affect yields for cultivars with sprouts that did not reach marketable size within the growing season. The ideal topping date window varied slightly for each cultivar and ranged from early to late September.

“For those growing Brussels sprouts, topping them in mid-September is an easy practice that is likely to help increase the number of quality sprouts you harvest,” said Sideman. “Plus, with this study, we were able to identify varieties that are likely to do well in our region—helping farmers and gardeners produce high quality crops.”

Read Brussels Sprout Cultivar Performance and Response to Apical Meristem Removal, in HortTechnology, where the research was featured on the front-page of the Volume 33 (2023): Issue 2 (April 2023).

Funding: This material is based on work supported by the NH Agricultural Experiment Station through joint funding from the USDA National Institute of Food and Agriculture (under Hatch award number 1019868) and the state of New Hampshire. Funding also came from the New Hampshire Vegetable and Berry Growers’ Association and from the Northeast Sustainable Agriculture Research and Education (SARE) Project LNE 18-365.

ABOUT THE NHAES
Founded in 1887, the NH Agricultural Experiment Station at the UNH College of Life Sciences and Agriculture is UNH’s first research center and an elemental component of New Hampshire’s land-grant university heritage and mission. We steward federal and state funding, including support from the USDA National Institute of Food and Agriculture, to provide unbiased and objective research concerning diverse aspects of sustainable agriculture and foods, aquaculture, forest management, and related wildlife, natural resources, and rural community topics. We maintain the Woodman and Kingman agronomy and horticultural research farms, the Macfarlane Research Greenhouses, the Fairchild Dairy Teaching and Research Center, and the Organic Dairy Research Farm. Additional properties also provide forage, forests, and woodlands in direct support to research, teaching, and outreach.

–NH Agricultural Experiment Station
College of Life Sciences and Agriculture
University of New Hampshire