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The germination characteristics of the seeds of the unique and rare medicinal plant of Illicium difengpi in karst region

CHEN Shuo, DENG Li-li, JIANG Zhong-lin, XIONG Zhong-chen, JIANG Yun-sheng, WEI Xiao, SHI Yan-cai

HUBEI AGRICULTURAL SCIENCES 2025, 64 (1): 75-80. DOI: 10.14088/j.cnki.issn0439-8114.2025.01.014

Abstract （79）

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Using Illicium difengpi B. N. Chang seeds as materials, the germination characteristics and the optimal germination environment of Illicium difengpi seeds were investigated, and the seed kernel weight and the seed shell weight were determined. The effects of different soaking time （0, 1, 2, 3, 4, 5 d）, different water content of substrate （30%, 50%, 70%） and different sowing depth （0, 1, 2, 3, 4 cm）, different light conditions （all black, natural light）, different soil substrates （sandy soil, fertilized soil, loess, mixed soil, perlite）, and different gibberellins breaking dormancy treatments （a total of 9 combinations） on the germination of Illicium difengpi seeds were studied. The results showed that the length-to-width ratio of Illicium difengpi seeds was close to 1.5∶1, and the average ratio of seed kernel weight to seed shell weight was 2.40. The germination rate was highest when seeds were soaked for 4 days and the water content of substrate was 70%. The germination rate was highest at a sowing depth of 1 cm. Soaking time, sowing depth, lighting, sowing substrate, and gibberellin treatment to break dormancy all significantly affected the germination rate of seeds. Under dark conditions, seeds soaked for 4 days and treated with gibberellin to break dormancy （soaked in 100 mg/L gibberellin for 12 hours, removed for 30 hours of stratification treatment, and then soaked in 100 mg/L gibberellin for another 12 hours） were sown in perlite substrate at a depth of 1 cm, maintaining a substrate water content of 70%, which could effectively improve their germination rate.

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Germplasm resource evaluation of Artemisia stolonifera based on photosynthetic and chlorophyll fluorescence characteristics

WANG Ye, WANG Chu, CHANG Na-na, XU Yang, HUANG Lu-qi, LI Hui

HUBEI AGRICULTURAL SCIENCES 2025, 64 (1): 81-87. DOI: 10.14088/j.cnki.issn0439-8114.2025.01.015

Abstract （80）

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In order to select high and stable germplasm resources of Artemisia stolonifera, photosynthetic fluorescence parameters of leaves of different phenotypes of Artemisia stolonifera were evaluated. Artemisia stolonifera planted in Sunjia Village, Zhangshu City, Jiangxi Province was used as experimental material, and six phenotypes of Artemisia stolonifera were used as test objects. The chlorophyll photosynthetic fluorescence parameters were determined by portable photosynthesometer, and the photosynthetic capacity and potential adaptability of different phenotypes were evaluated by variance analysis, principal component analysis and membership function analysis. The results showed that the phenotypic leaf morphology of the 6 species was significantly different, and the photosynthetic parameters and chlorophyll fluorescence parameters of the leaves of different phenotypes were significantly different. The net photosynthetic rates of dark green large leaf type [（16.260±3.585） μmol/（m²s）] and light green narrow leaf type [（17.366±3.982） μmol/（m²s）] were significantly higher than those of the other 4 phenotypes. Principal component analysis showed that net photosynthetic rate, intercellular carbon dioxide concentration, water vapor pressure deficit value, initial fluorescence value and maximum fluorescence value under dark adaptation were important contributing variables. The results of membership function value calculation showed that light green narrow leaf type（0.58）, dark green large leaf type（0.53） and dark green narrow leaf type （0.50） had higher comprehensive ranking scores and were suitable as candidate excellent germplasm.

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