Polyacrylamide Regulated Phytohormone Balance and Starch Degradation to Promote Seed-Potato Sprouting and Emergence

Polyacrylamide Regulated Phytohormone Balance and Starch Degradation to Promote Seed-Potato Sprouting and Emergence

Potatoes are typically seeded as tubers, and their slow sprouting significantly impacts production. Therefore, the effects of polyacrylamide (20 g·L , 30 g·L , and 40 g·L ) as a seed potato dressing on sprouting, seedling growth, and biomass were investigated. The phytohormone content, respiratory i...

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Published in:Plants (Basel) Vol. 13; no. 19; p. 2796
Main Authors: Yin, Meiqiang, Hu, Dongmei, Yu, Xiaohang, Wang, Yijie, Song, Sa, Wang, Chongyue, Hu, Qilin, Wen, Yinyuan
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 05-10-2024
MDPI
Subjects:
Abscisic acid
Agricultural production
Auxins
Biomass
Comparative analysis
Composition
Cytokinins
Degradation
Enhanced oil recovery
Environmental aspects
Enzymatic activity
Enzyme activity
Enzymes
Germination
Gibberellins
Growth
Identification and classification
Loam soils
Measurement
Nutrients
phytohormone
Phytohormones
Plant hormones
Polyacrylamide
potato
Potatoes
Respiration
Seedlings
sprouting
Starch
starch conversion
Vegetables
α-Amylase
China
sprouting
starch conversion
polyacrylamide
potato
phytohormone
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Summary:Potatoes are typically seeded as tubers, and their slow sprouting significantly impacts production. Therefore, the effects of polyacrylamide (20 g·L , 30 g·L , and 40 g·L ) as a seed potato dressing on sprouting, seedling growth, and biomass were investigated. The phytohormone content, respiratory intensity, and starch metabolism enzyme activity were analyzed to elucidate the physiological mechanisms involved. The sprouting rate significantly increased after 20 g·L and 30 g·L treatments by 40.63% and 15.63%, respectively. The sprouting energy was the highest (52.0%) at 20 g·L , 7.67 times higher than the control. The 20 g·L and 30 g·L treatments also promoted emergence and growth, with the emergence rate increasing by 18.18% and 27.27% and growth increasing by over 8.1% and 11.9%, respectively. These effects were related to changes in phytohormone content and accelerated starch conversion. After treatment, the auxin and cytokinin contents in the apical buds increased significantly at the germination initiation stage, and during the germination and vigorous growth phases, the auxin, cytokinin, and gibberellin contents increased. Polyacrylamide treatment activated α-amylase and promoted starch degradation, increasing soluble sugar content to provide nutrients and energy for sprouting. This study provides a promising approach for promoting potato tuber sprouting and seedling growth.
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These authors share first authorship.
ISSN:2223-7747
2223-7747
DOI:10.3390/plants13192796