Your search keyword '"Jason S. Lupoi"' showing total 2 results

1. Evaluation of Relationships between Growth Rate, Tree Size, Lignocellulose Composition, and Enzymatic Saccharification in Interspecific Corymbia Hybrids and Parental Taxa

Author

Adam L Healey, David John Lee, Jason S Lupoi, Gabriella Papa, Joel M Guenther, Luca Corno, Fabrizio Adani, Seema Singh, Blake Simmons, and Robert Henry

Subjects

0106 biological sciences, 0301 basic medicine, Biomass, lignin, Plant Biology, Plant Science, lcsh:Plant culture, 01 natural sciences, complex mixtures, xylan, 03 medical and health sciences, chemistry.chemical_compound, Corymbia, eucalypt, Bioenergy, Enzymatic hydrolysis, Botany, Lignin, lcsh:SB1-1110, Original Research, klason lignin, Glucan, chemistry.chemical_classification, biology, Chemistry, Diameter at breast height, Enzymatic saccharification, glucan, biology.organism_classification, biofuels, saccharification, Horticulture, 030104 developmental biology, Biofuel, Biofuels, growth rate, 010606 plant biology & botany

Abstract

In order for a lignocellulosic bioenergy feedstock to be considered sustainable, it must possess a high rate of growth to supply biomass for conversion. Despite the desirability of a fast growth rate for industrial application, it is unclear what effect growth rate has on biomass composition or saccharification. We characterized Klason lignin, glucan, and xylan content with response to growth in Corymbia interspecific F1 hybrid families (HF) and parental species Corymbia torelliana and C. citriodora subspecies variegata and measured the effects on enzymatic hydrolysis from hydrothermally pretreated biomass. Analysis of biomass composition within Corymbia populations found similar amounts of Klason lignin content (19.7–21.3%) among parental and hybrid populations, whereas glucan content was clearly distinguished within C. citriodora subspecies variegata (52%) and HF148 (60%) as compared to other populations (28–38%). Multiple linear regression indicates that biomass composition is significantly impacted by tree size measured at the same age, with Klason lignin content increasing with diameter breast height (DBH) (+0.12% per cm DBH increase), and glucan and xylan typically decreasing per DBH cm increase (-0.7 and -0.3%, respectively). Polysaccharide content within C. citriodora subspecies variegata and HF-148 were not significantly affected by tree size. High-throughput enzymatic saccharification of hydrothermally pretreated biomass found significant differences among Corymbia populations for total glucose production from biomass, with parental Corymbia torelliana and hybrids HF-148 and HF-51 generating the highest amounts of glucose (~180 mg/g biomass, respectively), with HF-51 undergoing the most efficient glucan-to-glucose conversion (74%). Based on growth rate, biomass composition, and further optimization of enzymatic saccharification yield, high production Corymbia hybrid trees are potentially suitable for fast-rotation bioenergy or biomaterial production.

Published

2016

2. Localization of polyhydroxybutyrate in sugarcane using Fourier-transform infrared microspectroscopy and multivariate imaging

Author

Robert J Henry, Jason S. Lupoi, Henrik Vibe Scheller, Richard Mcqualter, Blake A. Simmons, Andreia M. Smith-Moritz, and Seema Singh

Subjects

Biodegradable polyester, Materials science, Infrared, Infrared imaging, Management, Monitoring, Policy and Law, Applied Microbiology and Biotechnology, Industrial Biotechnology, Polyhydroxybutyrate, symbols.namesake, Multivariate imaging, Biomass yield, Spectral data, Renewable Energy, Sustainability and the Environment, business.industry, Focal plane array, Sugarcane, Chemical Engineering, Biotechnology, Polyester, General Energy, Fourier transform, Chemical engineering, symbols, business, Research Article

Abstract

© 2015 Lupoi et al. Background: Slow-degrading, fossil fuel-derived plastics can have deleterious effects on the environment, especially marine ecosystems. The production of bio-based, biodegradable plastics from or in plants can assist in supplanting those manufactured using fossil fuels. Polyhydroxybutyrate (PHB) is one such biodegradable polyester that has been evaluated as a possible candidate for relinquishing the use of environmentally harmful plastics. Results: PHB, possessing similar properties to polyesters produced from non-renewable sources, has been previously engineered in sugarcane, thereby creating a high-value co-product in addition to the high biomass yield. This manuscript illustrates the coupling of a Fourier-transform infrared microspectrometer, equipped with a focal plane array (FPA) detector, with multivariate imaging to successfully identify and localize PHB aggregates. Principal component analysis imaging facilitated the mining of the abundant quantity of spectral data acquired using the FPA for distinct PHB vibrational modes. PHB was measured in the chloroplasts of mesophyll and bundle sheath cells, acquiescent with previously evaluated plant samples. Conclusion: This study demonstrates the power of IR microspectroscopy to rapidly image plant sections to provide a snapshot of the chemical composition of the cell. While PHB was localized in sugarcane, this method is readily transferable to other value-added co-products in different plants.

Published

2015