Early-season Soil Moisture Deficit Reduces Sweetpotato Storage Root Initiation and Development

• Published in: HortScience Vol. 48; no. 12; pp. 1457 - 1462
• Main Authors: GAJANAYAKE, Bandara, REDDY, K. Raja, SHANKLE, Mark W, ARANCIBIA, Ramon A
• Format: Journal Article
• Language: English
• Published: Alexandria, VA American Society for Horticultural Science 01.12.2013
• Subjects: Agronomy. Soil science and plant productions; Biological and medical sciences; Fundamental and applied biological sciences. Psychology; Physical properties; Physics, chemistry, biochemistry and biology of agricultural and forest soils; Soil science; Water and solute dynamics; storage root; Vegetables; Horticulture; Soil moisture; Water deficit; Rhizogenesis; Property of soil; Convolvulaceae; Physical properties; Organogenesis; Soil water properties; Vegetable crop; Sweet potato; Dicotyledones; Angiospermae; Development; Early; Adventitious root; Spermatophyta; growth; Tuber plant; Ipomoea batatas; Season
• ISSN: 0018-5345; 2327-9834
• DOI: 10.21273/hortsci.48.12.1457

Sweetpotato [ Ipomoea batatas (L.) Lam.] storage root formation is a complex developmental process. Little quantitative information is available on storage root initiation in response to a wide range of soil moisture levels. This study aimed to quantify the effects of different levels of soil moisture on sweetpotato storage root initiation and to develop functional relationships for crop modeling. Five levels of soil moisture, 0.256, 0.216, 0.164, 0.107, and 0.058 m 3 ·m −3 soil, were maintained using sensor-based soil moisture monitoring and semiautomated programmed irrigation. Two commercial sweetpotato cultivars, Beauregard and Evangeline, were grown in pots under greenhouse conditions and treatments were imposed from transplanting to 50 days. Identification of storage roots was based on anatomical, using cross-sections of adventitious roots, and visual features harvested at 5-day intervals from 14 to 50 days after transplanting (DAT). Recorded time-series storage root numbers exhibited sigmoidal responses at all soil moisture levels in both cultivars. Time to 50% storage root initiation and maximum storage root numbers were estimated from those curves. Rate of storage root development was determined as a reciprocal of time to 50% storage root formation data. Time to 50% storage root initiation declined quadratically from 0.05 to 0.15 m 3 ·m −3 soil moisture and increased slightly at the higher soil moisture levels in both the cultivars. Cultivars differed in time to 50% storage root initiation and the storage root developmental rate. Soil moisture optima for storage root initiation were 0.168 and 0.199 m 3 ·m −3 soil, equivalent to 63% and 75% field capacity for cultivars Beauregard and Evangeline, respectively. The data and the inferences derived from the functional algorithms developed in this study could be used to advise growers to schedule irrigation more precisely, make planting decisions based on available soil moisture, and to develop sweetpotato crop models for field applications.