Zhou, G.; Gu, W.; Liu, E.; Zhou, L.; Song, X.; Lv, X.; Ji, Y. Plant Phenology Simulation and Trigger Threshold Based on Total Climatic Production Factors—A Case Study of Stipa krylovii Phenology. Agronomy2023, 13, 1768.
Zhou, G.; Gu, W.; Liu, E.; Zhou, L.; Song, X.; Lv, X.; Ji, Y. Plant Phenology Simulation and Trigger Threshold Based on Total Climatic Production Factors—A Case Study of Stipa krylovii Phenology. Agronomy 2023, 13, 1768.
Zhou, G.; Gu, W.; Liu, E.; Zhou, L.; Song, X.; Lv, X.; Ji, Y. Plant Phenology Simulation and Trigger Threshold Based on Total Climatic Production Factors—A Case Study of Stipa krylovii Phenology. Agronomy2023, 13, 1768.
Zhou, G.; Gu, W.; Liu, E.; Zhou, L.; Song, X.; Lv, X.; Ji, Y. Plant Phenology Simulation and Trigger Threshold Based on Total Climatic Production Factors—A Case Study of Stipa krylovii Phenology. Agronomy 2023, 13, 1768.
Abstract
In response to the new concept of the impact of total climate production factors on plant phenology, this study will verify the feasibility of simulating plant phenology and triggering thresholds based on total climatic production factors by using the phenological and meteorological observation data of S. krylovii plant from 1985 to 2018 at the Xilinhot National Climate Observatory of China Meteorological Administration. The results indicate that the total climate production factors influencing plant phenological changes can be well used for phenological simulation and its triggering thresholds. The mutation of cumulative climate production potential based on total climate production factors can effectively indicate the green-up date and the wilting date of S. krylovii plant, and their triggering thresholds depend on the parameters of climate resource change and plant biology, which are (0.085, –5.363) and (0.086, –27.620), respectively. The cumulative climate production potential based on total climate production factors can effectively indicate the heading date of S. krylovii plant, and its triggering thresholds also depends on the parameters of climate resource change and plant biology, which is (394.632,–38026.268). Furthermore, the results support the viewpoint that the climate abrupt changes determine the beginning and the ending of plant growth, while the accumulative climate resources determine the other phenological dates. This study provides new ideas for the study of plant phenology.
Keywords
Phenology; total climate production factors; S. krylovii plant; simulation; triggering threshold
Subject
Environmental and Earth Sciences, Ecology
Copyright:
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