Page 113 - 《广西植物》2025年第10期
P. 113
10 期 钟楚等: 铝胁迫对穿心莲抗氧化能力和碳氮代谢的影响 1 8 4 3
WANG XLꎬ LÜ XFꎬ 2020. Research progress on mechanism of Sciences. [张新梅ꎬ 2013. 铝胁迫下植物根系的伸长生长
nitrogen metabolism involved in plant stress resistance 和通气组织形成及其与乙烯的关系研究[D]. 北京: 中国
[J]. Guihaiaꎬ 40 ( 4): 583 - 591. [ 王 新 磊ꎬ 吕 新 芳ꎬ 科学院大学.]
2020. 氮代谢参与植物逆境抵抗的作用机理研究进展 ZHANG YLꎬ LI Wꎬ YU QKꎬ et al.ꎬ 2023. Nitrogen metabolism
[J]. 广西植物ꎬ 40(4): 583-591.] response mechanism to different drought stresses in leaves
WAN Qꎬ 2007. Effects of aluminum stress on the content of and roots of Cynodon dactylon [ J]. Acta Prataculturae
carbohydrate in Dimocarpus longan Lour seedlings [ J]. Sinicaꎬ 32(7): 175-187. [张一龙ꎬ 李雯ꎬ 喻启坤ꎬ 等ꎬ
Chinese Journal of Tropical Cropsꎬ 28(4): 10-14. [万泉ꎬ 2023. 狗牙根叶与根氮代谢对不同干旱胁迫的响应机制
2007. 铝胁迫对龙眼幼苗碳水化合物含量的影响[J]. 热 [J]. 草业学报ꎬ 32(7): 175-187.]
带作物学报ꎬ 28(4): 10-14.] ZHAO HEꎬ HE LYꎬ ZHANG AQꎬ et al.ꎬ 2008. Advance in the
WU LHꎬ JIANG SHꎬ TAO QNꎬ 1998. The application of study of effects of aluminum stress on plant photosynthesis
colorimetric method on the determination of transaminase and its mechanism [ J]. Journal of Huazhong Agricultural
activity [J]. Chinese Journal of Soil Scienceꎬ 29(3): 136- Universityꎬ 27(1): 155-160. [赵会娥ꎬ 贺立源ꎬ 章爱群ꎬ
138. [吴良欢ꎬ 蒋式洪ꎬ 陶勤南ꎬ 1998. 植物转氨酶(GOT 等ꎬ 2008. 铝胁迫对植物光合作用的影响及其机理的研究
和 GPT)活度比色测定方法及其应用[J]. 土壤通报ꎬ 进展[J]. 华中农业大学学报ꎬ 27(1): 155-160.]
29(3): 136-138.] ZHAO XQꎬ GUO SWꎬ SHINMACHI Fꎬ et al.ꎬ 2013. Aluminum
XIAO LYꎬ CHENG JLꎬ WANG Jꎬ et al.ꎬ 2010. Physiological tolerance in rice is antagonistic with nitrate preference and
response of rice seedlings to nitrogen forms under aluminum synergistic with ammonium preference [ J ]. Annals of
stress [ J]. Jiangsu Agricultural Sciencesꎬ 38 ( 6): 91 - Botanyꎬ 111(1): 69-77.
93. [肖龙云ꎬ 程嘉翎ꎬ 王俊ꎬ 等ꎬ 2010. 铝胁迫下水稻幼 ZHONG Cꎬ CAO XCꎬ HU JJꎬ et al.ꎬ 2017. Nitrogen metabolism
苗对供氮形态的生理响应[J]. 江苏农业科学ꎬ 38(6): in adaptation of photosynthesis to water stress in rice grown
91-93.] under different nitrogen levels [ J ]. Frontiers in Plant
XING AQꎬ TIAN ZQꎬ CHU RWꎬ et al.ꎬ 2023. Impacts of nitric Scienceꎬ 8: 1079.
oxide on response of different tissues to aluminum stress in ZHONG Cꎬ JIAN SFꎬ 2020. Study on the mechanisms of
Camellia sinensis [ J]. Jiangsu Agricultural Sciencesꎬ 51 nitrogen nutrition regulated plant stress ̄acclimation [ J].
(7): 110-117. [邢安琪ꎬ 田志强ꎬ 储睿文ꎬ 等ꎬ 2023. 一 Acta Agriculturae Boreali ̄Sinicaꎬ 35 ( Suppl. 1): 424 -
氧化氮对茶树不同组织响应铝胁迫的影响[J]. 江苏农业 432. [钟楚ꎬ 简少芬ꎬ 2020. 氮素营养调控植物逆境适应
科学ꎬ 51(7): 110-117.] 的机理研究[J]. 华北农学报ꎬ 35(增刊 1): 424-432.]
YAN HFꎬ MAO PSꎬ XIA FSꎬ 2013. Research progress in plant ZHONG Cꎬ JIAN SFꎬ CHEN DLꎬ et al.ꎬ 2021. Advances in
antioxidant glutathione (review) [J]. Acta Agrestia Sinicaꎬ regulation studies on accumulation and biosynthesis of
21(3): 428-434. [闫慧芳ꎬ 毛培胜ꎬ 夏方山ꎬ 2013. 植物 andrographolide components in Andrographis paniculata
抗氧化剂谷胱甘肽研究进展[ J]. 草地学报ꎬ 21(3): [J]. Guihaiaꎬ 41(10): 1746-1754. [钟楚ꎬ 简少芬ꎬ 陈东
428-434.] 亮ꎬ 等ꎬ 2021. 穿心莲内酯类成分积累与生物合成的调控
YU Yꎬ ZHOU MRꎬ DONG Jꎬ et al.ꎬ 2023. Association between 研究进展[J]. 广西植物ꎬ 41(10): 1746-1754.]
polyamines change profiles and aluminum tolerance of two ZHONG XFꎬ LI BDꎬ LI MJꎬ et al.ꎬ 2022. Research advances in
differential wheat genotypes [J]. Journal of Triticeae Cropsꎬ photorespiration [ J]. Journal of Tropical and Subtropical
43(7): 911-919. [余燕ꎬ 周茂润ꎬ 董嘉ꎬ 等ꎬ 2023. 铝胁 Botanyꎬ 30(6): 782-790. [钟孝芬ꎬ 李波娣ꎬ 李敏姬ꎬ 等ꎬ
迫下不同小麦基因型根尖多胺含量变化与耐铝性的关系 2022. 光 呼 吸 研 究 进 展 [ J]. 热 带 亚 热 带 植 物 学 报ꎬ
[J]. 麦类作物学报ꎬ 43(7): 911-919.] 30(6): 782-790.]
+
ZENG Yꎬ XIE RLꎬ PENG JYꎬ et al.ꎬ 2024. Acidification ZHOU XHꎬ XU HNꎬ GU ZHꎬ et al.ꎬ 2016. Effects of PM H  ̄
characteristics of soil in the main sugarcane planting areas in ATPase on the nitrate uptake of rice under aluminum stress
Guangxi [ J]. Journal of Southern Agricultureꎬ 55(9): [J]. Plant Physiology Journalꎬ 52 (7): 1011-1018. [周小
+
2623-2631. [曾艳ꎬ 谢如林ꎬ 彭嘉宇ꎬ 等ꎬ 2024. 广西甘蔗 华ꎬ 徐慧妮ꎬ 谷照虎ꎬ 等ꎬ 2016. 铝胁迫下质膜 H  ̄ATPase
主产区土壤酸化特征分析 [J]. 南方农业学报ꎬ 55(9): 对水稻硝态氮吸收的影响[J]. 植物生理学报ꎬ 52(7):
2623-2631.] 1011-1018.]
ZHANG XMꎬ 2013. Study on the relation of Al ̄stressed plant
root elongation and aerenchyma formation to ethylene (责任编辑 邓斯丽)
[ D ]. Beijing: University of Chinese Academy of
