Investigation of suitable seed sizes, segregation of ripe seeds, and improved germination rate for the commercial production of hemp sprouts (Cannabis sativa L.).

BACKGROUND: With a growing market for functional foods, the nutraceutical properties of hemp sprouts have been investigated in recent studies. However, commercial mass production methods have yet to be developed. This study aimed to identify seed sizes suitable for segregating ripe seeds, which would improve the low germination rate in the high seed densities used in commercial hemp sprout production. RESULTS: Seeds ranging in size from 2.80 to 3.3 mm, collected by sieving, were the most suitable for sprouting, based on the distribution rate (74.9%) and germination rate (70.0%) at a low seed density (0.016 grains mm-2 ). Seed segregation by sinking the seeds in 70% ethanol after 2 h or more of water infiltration generated high germination rates of 86.3% to 94.3% at low seed density, compared to a 64.0% germination rate in non-segregated seeds. The hemp seed germination rate decreased geometrically with increasing sowing density. The germination rate with a high seed density (0.29 grains mm-2 ) was increased from 19.9% when seeds were not mixed with sand to 58.7% when mixed with sand in a 3:1 ratio. The sprouting yield significantly increased from 1.64 kg kg-1 when seeds were not mixed with sand to 9.55 kg kg-1 in seeds germinating when mixed with sand. Delta-9-tetrahydrocannabinol was not detected in hemp sprout. CONCLUSION: The production of hemp sprouts may be improved by identifying suitable seed sizes, segregating ripe seeds, and germinating seeds mixed with sand. This can be used in the commercial production of hemp sprouts. The sprouts were also found to be safe and without hallucinogenic effects. © 2020 Society of Chemical Industry.

Hydrothermal-process-based direct extraction of polydisperse lignin microspheres from black liquor and their physicochemical characterization.

Lignin nano-/microstructures are widely employed for agricultural drug delivery and heavy metal removal from wastewater, and facile low-cost methods of their large-scale production are therefore highly sought after. Herein, uniform-morphology polydisperse lignin microspheres were directly extracted from black liquor by lowering its pH to <4 followed by hydrothermal treatment and featured several lignin-typical characteristics, e.g., functional groups, thermal stability, amorphousness, and monolignol units. It was assumed that lignin rearranged and assembled into microspheres of various size, shape, and uniformity depending on pH, temperature, and hydrothermal treatment time. Lignin microsphere extraction efficiency was estimated as 15.87-21.62 g L-1, and the average size of microspheres obtained under different conditions was calculated as ∼1 µm, while the C, H, O, and N contents equaled 48-62, 5-6, 30-36, and 0.2-1.5%, respectively. Thus, our method was deemed suitable for direct large-scale extraction of lignin microspheres from black liquor.

The optimal mixing ratio of Brassica napus and Brassica juncea meal improve nematode Meloidogyne hapla effects.

The use of rapeseed (Brassica napus L.) or leaf mustard (Brassica juncea L. Czern) meal or both as organic fertilizer not only improves the soil environment and crop productivity by supplying nutrients but also has nematicidal effects. This study aimed to establish the optimal application levels of rapeseed and leaf mustard meal for stronger nematode control in tomato. Tomato is one of the most important solanaceous crops which is severely damaged by nematodes. At first, meal (120 g of varying mixing ratios of rapeseed and leaf mustard meal) was mixed with sterilized soil (1 kg). The optimal ratio of rapeseed:leaf mustard meal for effective nematode control was 20:100 g/kg of soil. Progoitrin and gluconapin were the most abundant glucosinolates found in rapeseed meal, while sinigrin was the most abundant in leaf mustard meal. The amount of sinigrin increased if the leaf mustard meal proportion increased in the meal mixture. Although the content of sinigrin in optimal ratio mixture of rapeseed and leaf mustard meal is lower than only leaf mustard meal, it is presumed that nematocidal effects of the mixture are better than that of the single component due to the high contents of progoitrin and gluconapin. So, we propose that rapeseed and leaf mustard meal mixture at an appropriate ratio can be used as an environmentally friendly nematocide.

Carbohydrate Analogue Microarrays for Identification of Lectin-Selective Ligands.

Fifty-five mono- and disaccharide analogues were prepared and used for the construction of microarrays to uncover lectin-selective ligands. The microarray study showed that two disaccharide analogues, 28' and 44', selectively bind to Solanum tuberosum lectin (STL) and wheat germ agglutinin (WGA), respectively. Cell studies indicated that 28' and 44' selectively block the binding of STL and WGA to mammalian cells, unlike the natural ligand LacNAc, which suppresses binding of both STL and WGA to cells.