Abstract
Returning corn cobs to the field during corn kernel harvesting is an effective way to improve soil properties and increase crop yield. However, seasonally frozen soil seriously hinders the field decomposition process of corn cobs. To explore the decomposition characteristics and promote field decomposition, in this study, the nylon mesh bag method was used to perform field decomposition tests for 150 days. Fiber composition analysis and microstructure observation were carried out. The results showed that the field decomposition of corn cob was influenced by temperature, precipitation, and frozen soil environment. The 150-day cumulative decomposition rates of the pith, woody ring, and glume were 40.0%, 24.2%, and 36.3%, respectively. Caused by the difference in fiber compositions, the decomposition speeds of pith and glume were much higher than that of the woody ring. The complex microstructures of the pith, woody ring, and glume led to differences in the accessibility of cellulose, which indirectly influenced the field decomposition characteristics. The homogeneous sponge-like structure of the pith and glume increased the accessibility of cellulose and ultimately accelerated the field decomposition, while the compact lignocellulosic structure of the woody ring hindered the decomposition process. Compared with corn stalk, corn cob had similar or even better field decomposition characteristics and excellent application prospects.
Highlights
IntroductionPublisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
Corn cob is the essential by-product in corn production, which accounts for about 15% of the total mass with a moisture content ranging from 66% to 47% w.b. [1]
The cellulose skeletons interweave as a whole to form a compact three-dimensional network entity
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Corn is one of the world’s three main grain crops and the largest grain crop in China. Corn cob is the essential by-product in corn production, which accounts for about 15% of the total mass with a moisture content ranging from 66% to 47% w.b. It is estimated that there are about 164 Tg corn cobs produced globally each year [2] and 45.9 Tg corn cobs produced annually in China. There are only about 8 million tons of corn cobs used in various applications. 82.6% of the corn cobs are burned [3], which releases pollutants and causes waste of biomass resources [4]. Returning to the field seems to be a reasonable treatment of corn cobs produced in harvesting
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