The superiority of the dynamic ripening and analysis (DRA) system based on a filter for all directions of use compared to the currently valid ripening system with the usage-specific ripening figures separated into silage and grain maize in Germany is demonstrated in a system-biological way. The silage maize ripeness index (SRI) as the sole indicator for the fixation of the harvest time, the evidence of biotic and abiotic plant stress as well as the selection of environmentally and ripeness-stable maize varieties for all directions of use is multifunctional direction and filter. The grower can make crop decisions in the near-harvest period for planning the processes and carrying out the harvest to be optimized. The reference ripeness point (SRI of 2.8) enables the full exploitation of the phenotypic performance and resistance potential in maize cultivation by standardizing the ecophysiological optimal maize ripeness of genotype and phenotype and, in the long term, through the risk assessment of climatic changes. The social acceptance of maize cultivation can be significantly increased through the better economic and ecological aspects of the DRA system.

在系统生物学中证明了基于动态过滤器的动态成熟与分析（DRA）系统在所有使用方向上的优越性，与目前有效的成熟系统相比，在德国，将按用途划分的成熟数字分为青贮饲料和谷物玉米方式。青贮玉米成熟度指数（SRI）是固定收获时间的唯一指标，生物和非生物植物胁迫的证据以及在所有使用方向上对环境和成熟度稳定的玉米品种的选择是多功能的方向，过滤。种植者可以在接近收获的时期做出作物决定，以计划流程并进行要优化的收获。参考成熟点（SRI为2）。8）通过标准化基因型和表型的生态生理最佳玉米成熟度，并长期通过气候变化的风险评估，能够充分利用玉米的表型表现和抗性潜力。通过DRA系统更好的经济和生态方面，可以大大提高玉米种植的社会接受度。