«Previous Article|Table of Contents|Next Article»

《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2023年06

Page:

104-111

Research Field:

Publishing date:

Info

Title:

Effects of Elevated CO2 Concentration and Nitrogen Deposition on the Growth and Its Medicinal Components of Reineckia carnea Kunth

Author(s):

HUANG Xingmin1; DENG Xiaohong1; PENG Hailan1; WANG Jianjian1; 2

(1.College of Life Sciences/Institute of Agro-bioengineering,Guizhou University,Guiyang,Guizhou 550025;2.Key Laboratory of Plant Resource Conservation and Germplasm Innovation in Mountainous Region (Ministry of Education),Guiyang,Guizhou 550025)

Keywords:

carbon dioxide; nitrogen deposition;  Reineckia carnea Kunth;  medicinal ingredients

PACS:

-

DOI:

10.11937/bfyy.20222659

Abstract:

Taking Reineckia carnea（Andr.）Kunth,a commonly used medicinal herb of the Miao nationality,as the research object,the pot control experiment was carried out,and four treatments were set up,including control (CK),carbon dioxide increase alone (eC:CO2 concentration ((800±20)μmol ? mol-1),nitrogen application alone (eN: application of 5 g NH4NO3),carbon dioxide increase and nitrogen application simultaneously (eC+eN:CO2 concentration (800±20)μmol ? mol-1,and application of 5 g NH4NO3),the effects of elevated CO2 concentration,nitrogen deposition and their interaction on the growth and medicinal components of Reineckia carnea（Andr.） Kunth were studied,in order to provide reference for the medicinal production of Reineckia carnea（Andr.） Kunth.The results showed that,1) increasing CO2 concentration and nitrogen application or simultaneously increasing CO2 concentration and nitrogen application significantly promoted the morphological growth,total biomass and soluble protein content significantly increased,carbon content in stem significantly decreased,and super oxide dismuta (SOD) activity had no significant change.2) Under nitrogen application,the total nitrogen content increased significantly,Catalase (CAT) activity and saponin content in roots and leaves decreased significantly.On this basis,increasing CO2concentration could alleviate the decline of saponin,CAT activity increased significantly,and endogenous hormone content increased significantly under nitrogen application or simultaneously increasing CO2 concentration and nitrogen application.In the actual production process,the concentration of CO2 can be appropriately increased,but the concentration of nitrogen should not be too high,which is beneficial to the growth of Reineckia carnea Kunth and ensure its medicinal quality is not damaged.

References:

[1]KOBAYASHI K.The experimental study of FACE[J].Japanese Journal of Crop Science,2001,70：1-16.[2]王续富,郝龙飞,郝嘉鑫,等.模拟氮沉降和不同外生菌根真菌侵染对樟子松幼苗生长的影响[J].植物研究,2021,41(1):138-144.[3]WANG N,HAO C.Increased nitrogen deposition increased the competitive effects of the invasive plant Aegilops tauschii on wheat[J].Acta Physiologiae Plantarum,2019,41:176.[4]陆文涛,种培芳,田艳丽,等.模拟氮沉降及降水作用下红砂和珍珠猪毛菜幼苗生物量的分配模式[J].草业科学,2021,38(11):2144-2154.[5]马翔,李辉,郭霄,等.不同氮沉降对耐冬山茶和茶梅生长及生理特性的影响[J].青岛农业大学学报(自然科学版),2021,38(4):262-272.[6]张琼,刘炜.苗药吉祥草药理作用及其作用机制研究[J].中国民族医药杂志,2021,27(7):51-54.[7]邢翔飞,金桂兰,奚炜,等.药用吉祥草的研究进展[J].医药导报,2018,37(10):1233-1236.[8]孙兴旭,肖定明.吉祥草不同栽培方式下氮磷钾积累规律初探[J].农技服务,2016,33(3):122-123.[9]黄睿,李炎林,章金盟,等.不同光照处理对吉祥草生理生化特性的影响[J].湖南农业科学,2009(3):36-38.[10]吴志明,向国红.吉祥草的耐阴性试验及在常德地区应用建议[J].中国园艺文摘,2010,26(8):23-25.[11]周欣,刘海,赵超,等.吉祥草化学成分研究[J].中国中药杂志,2008,33(23):2793-2796.[12]XU X,TAN T,ZHANG J,et,al.Isolation of chemical constituents with anti-inflammatory activity from Reineckia carnea herbs[J].Journal of Asian Natural Products Research,2020,22 (4):123-145.[13]刘海,杨建琼,熊亮,等.吉祥草化学成分和药理活性研究[J].中成药,2012,34(9):1785-1789.[14]肖列.CO2浓度升高、干旱胁迫和施氮对白羊草生长和根际微生物的影响[D].杨凌:西北农林科技大学,2015.[15]谷会,朱世江,侯晓婉,等.氯化钙处理对菠萝采后黑心病及贮藏品质的影响[J].食品科学,2020,41(9):161-167.[16]董娜,张爱菊,张小林.基于碘化钾-淀粉显色光度法测定过氧化氢酶活性[J].中国食品添加剂,2019,30(8):150-153.[17]白晓珂.氮添加、增温和降雨增加对黄土高原紫花苜蓿叶片化学计量学特征的影响[D].兰州:兰州大学,2019.[18]国家药典委员会.中华人民共和国药典:一部[M].北京:化学工业出版社,2015.[19]陈千思,卢紫舒,沈少君,等.HPLC-MS/MS法测定烟叶中7种植物内源激素[J].烟草科技,2018,51(11):51-57.[20]徐东升,杨春,叶世芸,等.贵州中药材钩藤主要有效成分总生物碱含量的测定[J].贵阳中医学院学报,2014,36(4):30-32.[21]万运帆,游松财,李玉娥,等.CO2浓度和温度升高对早稻生长及产量的影响[J].农业环境科学学报,2014,33(9):1693-1698.[22]刘筱.模拟CO2浓度升高和降水改变对薄荷生理生态特性的影响[D].贵阳:贵州大学,2020.[23]孙一梅,田青,郭爱霞,等.水、氮施用量对科尔沁沙地植被特征和叶性状的影响[J].中国沙漠,2020,40(6):223-232.[24]韩发,岳向国,师生波,等.青藏高原几种高寒植物的抗寒生理特性[J].西北植物学报,2005(12):2502-2509.[25]李金玲,赵致,罗春丽,等.不同光照强度和水分对金钗石斛生长与生理影响的综合评价[J].中药材,2017,40(10):2262-2265.[26]贺金生,韩兴国.生态化学计量学:探索从个体到生态系统的统一化理论[J].植物生态学报,2010,34(1):2-6.[27]李膺.不同温度、二氧化碳浓度及氮素施用情况对于矮地茶生长状态、生理学指标及药用成分的影响[D].杭州:浙江中医药大学,2013.[28]哈蓉,马亚平,曹兵,等.模拟CO2浓度升高对宁夏枸杞营养生长与果实品质的影响[J].林业科学,2019,55(6):28-36.[29]STERNER R W,ELSER J J,VITOUSEK P.Ecological stoichiometry:The biology of elements from molecules to the biosphere[M].New Jersey：Princeton University Press,2017.[30]陈克利.氮添加对油松和辽东栎幼苗次生代谢过程的影响[D].杨凌:西北农林科技大学,2019.

Memo

Memo:

-

Common functions

Last Update: 2023-04-19