Crop yield and light/energy efficiency in a closed ecological system: Laboratory Biosphere experiments with wheat and sweet potato

Abstract

Two crop growth experiments in the soil-based closed ecological facility, Laboratory Biosphere, were conducted from 2003 to 2004 with candidate space life support crops. Apogee wheat (Utah State University variety) was grown, planted at two densities, 400 and 800 seeds m −2. The lighting regime for the wheat crop was 16 h of light – 8 h dark at a total light intensity of around 840 μmol m −2 s −1 and 48.4 mol m −2 d −1 over 84 days. Average biomass was 1395 g m −2, 16.0 g m −2 d −1 and average seed production was 689 g m −2 and 7.9 g m −2 d −1. The less densely planted side was more productive than the denser planting, with 1634 g m −2 and 18.8 g m −2 d −1 of biomass vs. 1156 g m −2 and 13.3 g m −2 d −1; and a seed harvest of 812.3 g m −2 and 9.3 g m −2 d −1 vs. 566.5 g m −2 and 6.5 g m −2 d −1. Harvest index was 0.49 for the wheat crop. The experiment with sweet potato used TU-82-155 a compact variety developed at Tuskegee University. Light during the sweet potato experiment, on a 18 h on/6 h dark cycle, totaled 5568 total moles of light per square meter in 126 days for the sweet potatoes, or an average of 44.2 mol m −2 d −1. Temperature regime was 28 ± 3 °C day/22 ± 4 °C night. Sweet potato tuber yield was 39.7 kg wet weight, or an average of 7.4 kg m −2, and 7.7 kg dry weight of tubers since dry weight was about 18.6% wet weight. Average per day production was 58.7 g m −2 d −1 wet weight and 11.3 g m −2 d −1. For the wheat, average light efficiency was 0.34 g biomass per mole, and 0.17 g seed per mole. The best area of wheat had an efficiency of light utilization of 0.51 g biomass per mole and 0.22 g seed per mole. For the sweet potato crop, light efficiency per tuber wet weight was 1.33 g mol −1 and 0.34 g dry weight of tuber per mole of light. The best area of tuber production had 1.77 g mol −1 wet weight and 0.34 g mol −1 of light dry weight. The Laboratory Biosphere experiment’s light efficiency was somewhat higher than the USU field results but somewhat below greenhouse trials at comparable light levels, and the best portion of the crop at 0.22 g mol −1 was in-between those values. Sweet potato production was overall close to 50% higher than trials using hydroponic methods with TU-82-155 at NASA JSC. Compared to projected yields for the Mars on Earth life support system, these wheat yields were about 15% higher, and the sweet potato yields averaged over 80% higher.