HE Xueling,WEI Qinfang,ZHANG Xiaolan.Response of Photosynthetic Characteristics of Astragalus mongholicus Bunge to Different Fertilization (Organic) Levels[J].Northern Horticulture,2022,(10):89-94.[doi:10.11937/bfyy.20214302]
黄芪光合特性对不同施肥(有机)量的响应
- Title:
- Response of Photosynthetic Characteristics of Astragalus mongholicus Bunge to Different Fertilization (Organic) Levels
- Keywords:
- Astragalus mongholicus Bunge; organic fertilizer; photosynthetic characteristics; light response; environmental factors
- 文献标志码:
- A
- 摘要:
- 以一年生黄芪(Astragalus mongholicus Bunge)为试材,通过设置5个施肥水平(667 m2分别施肥0、500、1 000、1 500 、2 000 kg),研究了不同施肥量对黄芪的净光合速率(Pn)、气孔导度(Gs)、蒸腾速率(Tr)、胞间CO2浓度(Ci)、最大净光合速率(Pnmax)、光补偿点(LCP)、光饱和点(LSP)和暗呼吸速率(Rd)等的影响,以期为黄芪光和特性的施肥提供参考依据。结果表明:1)适量施有机肥可以提高黄芪的Pn、Pnmax、Rd、LCP、Tr和Gs,且能降低Ci,但对LSP的影响不明显。2)当667 m2施肥量为1 500 kg时黄芪的Pn最大,1 500~2 000 kg时Pnmax最大,1 000~1 500 kg时Tr、Gs和Rd最大,2 000 kg时Ci最小,但LCP和LSP的最佳施肥量随月份的不同而差异较大。因此该地区在种植黄芪每年667 m2施有机肥1 500~2 000 kg时光合能力最佳。
- Abstract:
- One-year-old Astragalus mongholicus Bunge was used as experimental material,five fertilization levels (0,500,1 000,1 500 and 2 000 kg per 667 m2) were set.The effects of different fertilization rates on net photosynthetic rate (Pn),stomatal conductance (Gs),transpiration rate (Tr),intercellular CO2 concentration (Ci),maximum net photosynthetic rate (Pnmax),light compensation point (LCP),light saturation point (LSP) and dark respiration rate (Rd) of Astragalus mongholicus Bunge were studied,in order to provide reference for the fertilization of light and characteristics of Astragalus mongholicus Bunge.The results showed that,1) Proper application of organic fertilizer increased Pn,Pnmax,Rd,LCP,Tr and Gs of Astragalus mongholicus Bunge and decreased Ci,but had no obvious effect on LSP.2) the maximum Pn,the maximum Pnmax,the maximum Tr,Gs and Rd,and the minimum Ci were observed when the fertilization application of 667 m2 was 1 500 kg,1 500-2 000 kg,1 000-1 500 kg,and 2 000 kg,respectively.However,the optimal fertilization rate of LCP and LSP varied greatly with different months.Therefore,the timing capacity of 1 500-2 000 kg organic fertilizer per 667 m2 of cultivated Astragalus mongholicus Bunge in this area was the best.
参考文献/References:
[1]BLAIN C O,SHEARS N T.Seasonal and spatial variation in photosynthetic response of the kelp ecklonia radiata across a turbidity gradient[J].Photosynthesis Research,2019,140:21-38.[2]WANG X L,ZHANG Z Y,XU X M,et al.The density of barnyard grass affects photosynthesis and physiological characteristics of rice[J].Photosynthetica,2019,57(2):705-711.[3]YASUAKI A,TOMOMI I,HAJIME T,et al.Photosynthesis,respiration,and growth patterns of Rhizophora stylosa seedlings in relation to growth temperature[J].Trees,2019(33):1041-1049.[4]BORRAS L,CURA J A,OTEGUI M,et al.Maize kernel composition and post-flowering source-sink ratio[J].Crop Science,2002,42(3):781-790.[5]SAEED R,HAMZEH A,AHMAD I.Evaluation of photosynthesis,physiological,and biochemical responses of chickpea (Cicer arietinum L.cv.Pirouz) under water deficit stress and use of vermicompost fertilizer[J].Journal of Integrative Agriculture,2018,17(11):2426-2437.[6]OROTAEVA N E,IVANOVA M V,SUVOROVA G G,et al.The impact of the environmental factors on the photosynthetic activity of common pine (Pinus sylvestris) in spring and in autumn in the region of eastern Siberia[J].Journal of Forestry Research,2018,29(6):1465-1473.[7]SHUKRI F,SALI A,IMER R,et al.Variation of physiological growth indices,biomass and dry matter yield in some maize hybrids[J].Journal of Agriculture Science,2014,13(25):69-73.[8]GODFRAY H,BEDDINGTON J,CRUTE I,et al.Food security:The challenge of feeding 9 billion people[J].Science,2010,327(5967):812-818.[9]匡可任,路安民.中国植物志[M].北京:科学出版社,1978.[10]吴红伟,李东辉,边甜甜,等.基于响应面法结合熵权法多指标优选黄芪药材产地加工炮制一体化工艺[J].中草药,2021,52(19):5854-5861.[11]李艳玲,丁煌,杨芙蓉,等.黄芪甲苷配伍三七总皂苷对脑缺血大鼠BMSCs移植后血管新生的影响[J].中国实验方剂学杂志,2021,27(21):73-79.[12]王国宏,贾璐,王世伟,等.黄芪建中汤在大鼠胆汁中代谢产物的鉴定[J].中草药,2021,52(19):5827-5835.[13]马琳,陈昌婕,苗玉焕,等.基于蕲艾产量和品质的氮肥适宜施用量研究[J].植物营养与肥料学报,2021,27(9):1665-1674.[14]马兴东,郭晔红,杜弢,等.干旱区栽培黑果枸杞光合特性和产量对施氮的响应[J].西北农业学报,2020,29(11):1686-1694[15]张倩,刘根红,杨世花,等.不同施氮量与施氮深度对枸杞保护酶活性的影响[J].北方园艺,2021(18):119-125.[16]马兴东,郭晔红,李梅英,等.施氮对干旱区黑果枸杞光合-CO2响应及药效成分的影响[J].西北植物学报,2020,40(7):1209-1218.[17]杨威,狄彩霞,李季,等.我国有机肥原料及商品有机肥中四环素类抗生素的检出率及含量[J].植物营养与肥料学报,2021,27(9):1487-1495.[18]陈检锋,梁海,王伟,等.玉米-绿肥轮作体系下光叶紫花苕的氮肥替代和土壤肥力提升效应[J].植物营养与肥料学报,2021,27(9):1571-1580.[19]VALLE R,MISHOE J W,CAMPBELL W J,et al.Photosynthetic responses of ‘Bragg’ soybean leaves adapted to different CO2 environments[J].Crop Science,1985,25(2):333.[20]李理渊,李俊,同小娟等不同光环境下栓皮栎和刺槐叶片光合光响应模拟[J].应用生态学报,2018,29(7):2295-2306.[21]任博,李俊,同小娟,等.太行山南麓栓皮栎和刺槐叶片光合光响应模拟[J].生态学杂志,2017,36(8):2206-2216.[22]YE Z P.A new model for relationship between irradiance and the rate of photosynthesis in Oryza sativa[J].Photosynthetica,2007,45(4):637-640.[23]叶子飘,胡文海,肖宜安,等.光合电子流对光响应的机理模型及其应用[J].植物生态学报,2014,38(11):1241-1249.[24]刘杨杨,李俊,于强,等.甘蔗叶片光合CO2响应参数分析及其品种间差异[J].中国农业气象,2019,40(10):637-646.[25]叶子飘,段世华,安婷,等.C4作物电子传递速率对CO2响应模型的构建及应用[J].植物生态学报,2018,42(10):1000-1008.[26]任博,李俊,同小娟,等.太行山南麓栓皮栎和刺槐光合作用-CO2响应模拟[J].应用生态学报,2018,29(1):1-10.[27]BEMACCHI C J,MORGAN P B,ORT D R,et al.The growth of soybean under free air [CO2] enrichment(FACE) stimulates photosynthesis while decreasing in vivo Rubisco capacity[J].Planta,2005,220:434-446.[28]OABOME C P,WYTHE E J,IBRAHIM D G,et al.Low temperature effects on leaf physiology and survivorship in the C3 and C4 subspecies of Alloteropsis semialata[J].Journal of Experimental Botany,2008,59:1743-1754.[29]马兴东,郭晔红,王爱敏,等.干旱区黑果枸杞光合电子传递速率对施氮的响应[J].干旱区资源与环境,2021,35(5):130-136.
相似文献/References:
[1]赵培强,王伟红,赵庆芳.五种中草药对黄芪化感作用的研究[J].北方园艺,2013,37(22):160.
ZHAO Pei-qiang,WANG Wei-hong,ZHAO Qing-fang.Study on Allelopathic Effects of Five Chinese Herbal Medicines on Astragalus membranaceus [J].Northern Horticulture,2013,37(10):160.
[2]周兴,王振平,代红军.不同施肥处理对“蛇龙珠”葡萄光合性能及品质的影响[J].北方园艺,2013,37(14):1.
ZHOU Xing,WANG Zhen-ping,DAI Hong-jun.Effects of Different Fertilizer Treatments on Photosynthesis and Quality of ‘Cabernet’ Grape[J].Northern Horticulture,2013,37(10):1.
[3]阿娜尔?阿扎提,努尔巴依?阿布都沙力克.化肥施用量对农民纯收入和环境的影响[J].北方园艺,2014,38(05):197.
AnaerAzati,NuerbayiAbudushalike.The Influence of Chemical Fertilizers on the Net Income of Farmers and the Environment[J].Northern Horticulture,2014,38(10):197.
[4]朱盼盼,张显,任自力.不同施肥处理对连作西瓜土壤微生物区系的影响[J].北方园艺,2013,37(11):171.
ZHU Pan-pan,ZHANG Xian,REN Zi-li.Effects of Different Fertilizer Application on Soil Microflora of Continuous Cropping Watermelon[J].Northern Horticulture,2013,37(10):171.
[5]鲍瑞,周筠,康建宏,等.不同有机肥对枸杞活性成分的影响[J].北方园艺,2013,37(05):174.
BAO Rui,ZHOU Yun,KANG Jian-hong,et al.Effect of Different Organic Fertilizer Treatments on Active Ingredient of Lycium barbarum L.[J].Northern Horticulture,2013,37(10):174.
[6]司海丽,孙权,王锐,等.马铃薯渣有机肥对土壤结构及芹菜品质和产量的影响[J].北方园艺,2013,37(19):168.
SI Hai-li,SUN Quan,WANG Rui,et al.Effect of Potato Waste Organic Fertilizer on Soil Structure and Celery Yield and Quality[J].Northern Horticulture,2013,37(10):168.
[7]徐芳.有机肥投入对菠菜中钙、镁、钼、锂含量和分布的影响[J].北方园艺,2012,36(04):144.
XU Fang.Effects of Organic Fertilizer Input on Ca,Mg,Mo,Li Content and Distribution in Spinach[J].Northern Horticulture,2012,36(10):144.
[8]田曦,王晓巍,张玉鑫.高海拔冷凉区西芹高效栽培技术研究[J].北方园艺,2012,36(06):32.
TIAN Xi,WANG Xiao-wei,ZHANG Yu-xin.Study on Efficient Cultivation Techniques of Celery in High-altitude Cold Areas[J].Northern Horticulture,2012,36(10):32.
[9]翁生余,孙志栋,戴国辉,等.不同种类有机肥对十字花科蔬菜连作小松菜的产量及效益的影响[J].北方园艺,2012,36(24):179.
WENG Sheng-yu,SUN Zhi-dong,DAI Guo-hui,et al.Effect of Different Kinds of Organic Fertilizer on the Yield and Benefit of Komatsu Dish by Continuous Cropping in Cruciferous Vegetables[J].Northern Horticulture,2012,36(10):179.
[10]邵 蕾,王丽霞,马元民,等.污泥有机肥在油菜上的应用研究[J].北方园艺,2013,37(23):178.
SHAO Lei,WANG Li-xia,MA Yuan-min,et al.Research on Sludge Organic Fertilizer Applied on Rape[J].Northern Horticulture,2013,37(10):178.
备注/Memo
第一作者简介:何雪玲(1979-),女,本科,高级农艺师,现主要从事经济作物技术推广等工作。E-mail:414840417@qq.com.责任作者:魏琴芳(1967-),女,本科,高级农艺师,现主要从事经济作物技术推广等工作。E-mail:794420779@qq.com.基金项目:国家重点研发计划资助项目(2018YFD0201100)。收稿日期:2021-10-23