Core Viewpoint - The article highlights a significant technological breakthrough in the efficient utilization of agricultural straw through a novel enzymatic hydrolysis process, which transforms straw into various high-value products, addressing global challenges in straw resource management [2][3][4]. Technological Innovations - A new high-activity enzyme for straw hydrolysis has been developed, overcoming traditional chemical and physical methods that are energy-intensive and polluting, leading to a substantial increase in straw utilization rates [3][6]. - The technology, named "Straw Lignocellulose Enzymatic Hydrolysis and Three-Component Separation," has achieved international leading levels in the efficient separation and high-value conversion of straw resources [3][6]. - The project has established an industrial trial production line capable of processing 20,000 tons of straw annually, marking a significant transition from laboratory research to industrial application [4][5]. Economic and Environmental Impact - The enzymatic process converts 60% of straw into fiber products and 40% into soluble humic acid and fumaric acid fertilizers, contributing to sustainable agricultural practices [6]. - The project aims to create a new agricultural resource market, with a 120,000-ton straw project expected to produce 85,000 tons of enzymatic liquid or 36,000 tons of potassium humate powder, enhancing soil quality and promoting ecological agriculture [9]. Collaboration and Industry Development - A "co-creation alliance" has been formed with nine quality distribution platforms, moving away from traditional distribution models to foster collaborative innovation in the agricultural sector [10]. - The upcoming NFUCon 2025 forum will gather industry experts to discuss the large-scale application of biomass resources, contributing to carbon neutrality goals [12].