Effect of seed coating on plant growth and soil conditions: A preliminary study for restoration of degraded rangeland in the Qinghai–Tibetan Plateau, China

Rangeland degradation is a significant problem in the Qinghai–Tibetan Plateau, China. Restoration of the degraded rangelands through reseeding is being undermined by poor seedling growth under adverse soil moisture and nutrition conditions. Accordingly, seeds of Italian ryegrass ( Lolium multiflorum ) and Chinese milk vetch ( Astragalus sinicus ) were coated with a mixture of hygroscopic and plant‐derived polysaccharide gums and alga powder ( Phaeocystis sp. necolon‐1), and inoculated with spores of microorganisms ( Aspergillus sp. and Streptomyces sp.), serving as coating mixture decomposers, in order to improve rhizosphere moisture and nutrition. In a growth chamber simulating spring climate on the Plateau, seedling emergence of the coated seeds was 60–80 and 48–82%, respectively, for the two plant species in comparison to 38 and 24% for the uncoated seeds, which was due to moisture being supplied by the coat. In the outdoor pots with soil texture and moisture conditions similar to those of the degraded rangelands on the Plateau, dry weight of the plants from the coated seeds was 109–184 and 118–156 mg plant −1 for the respective plant species, while that of the plants from uncoated seeds was 18–20 and 10–11 mg plant −1 . The number of Rhizobium sp. nodules on Chinese milk vetch plants from the coated seeds was 21–25 plant −1 while 0–2 in plants from uncoated seeds. Enhancement of plant growth was caused by increased activity of soil microbes. Plant growth on the soil after sampling plants from the coated seeds was also enhanced, indicating sustainability of improvement of soil conditions. Thus seed coating with hygroscopic nutrient‐source materials and inoculation with microorganism spores as slow decomposers of the coating materials is a promising method for restoring degraded rangelands.