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《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2016年07

Page:

140-143

Research Field:

Publishing date:

Info

Title:

Effect of Soil Heating on Yield of Radix Pseudostellariae in Continuous Cropping

Author(s):

REN Yongquan; ZHANG Guohui; ZHOU Jiangju

（College of Environment and Life Science，Kaili University，Kaili，Guizhou 556011）

Keywords:

medicinal plant; Radix Pseudostellariae; replant disease; soil heating

PACS:

-

DOI:

10.11937/bfyy.201607035

Abstract:

With virgin and replanting soil of Radix Pseudostellariae as research object，effect of soil heating in different temperatures (60℃，90℃ and 120℃) and various durations (3 hours，6 hours，9 hours and 12 hours) on yield of Radix Pseudostellariae was tested by pot experiments.The results showed that effect of virgin soil heating on the increment of yield of Radix Pseudostellariae was not statistically significant，however，soil heating increased yields by up to 545.16% and 139.29% for 15-years and 8-years continuous cropping soil，respectively.Replanting soil heating at 60℃ for 6 hours，or at higher temperatures (90℃ or 120℃) for 3 hours significantly improved yield of Radix Pseudostellariae.Soil heating played an important role in increasing yield and alleviating soil sickness of Radix Pseudostellariae probably by eliminating harmful soil microbes.

References:

 

[1]冯业强,夏品华,龙健,等.连作年限对太子参产量及品质的影响[J].贵州农业科学,2010,38(10):61-63.

[2]夏品华,刘燕.太子参连作障碍效应研究[J].西北植物学报,2010,30(11):2240-2246.

[3]BENIZRI E,PIUTTI S,VERGER S,et al.Replant diseases：bacterial community structure and diversity in peach rhizosphere as determined by metabolic and genetic fingerprinting[J].Soil Biology and Biochemistry,2005,7(9):1738-1746.

[4]MANICI L M,KELDERER M,FRANKE-WHITTLE I H,et al.Relationship between root-endophytic microbial communities and replant disease in specialized apple growing areas in Europe[J].Applied Soil Ecology,2013,72(5):207-214.

[5]XIANG J，HADEN V R，PENG S,et al.Improvement in nitrogen availability，nitrogen uptake and growth of aerobic rice following soil acidification[J].Soil Science and Plant Nutrition,2009,55(5):705-714.

[6]IORI P,DA SILVA R B,AJAYI A E,et al.What drives decline productivity in ageing tea plantation-soil physical properties or soil nutrient status[J].Agricultural Science,2014,2(1):22-36.

[7]WANG T,GUI M,LIU H,et al.Secretion of catalpol from Rehmannia glutinosa roots to the rhizosphere[J].Acta Physiologiae Plantarum,2010,32(1):141-144.

[8]YEASMIN R,MOTOKI S,YAMAMOTO S,et al.Allelochemicals inhibit the growth of subsequently replanted asparagus (Asparagus officinalis L.)[J].Biological Agriculture and Horticulture,2013,29(3):165-172.

[9]林茂兹,黄少华,陈巧巧,等.太子参连作障碍及其根际土壤尖孢镰刀菌数量变化[J].云南农业大学学报,2012,27(5):716-721.

[10]林茂兹,王海斌,林辉锋.太子参连作对根际土壤微生物的影响[J].生态学杂志,2012,31(1):106-111.

[11]MENDES R,KRUIJT M,de BRUIJN I,et al.Deciphering the rhizosphere microbiome for disease-suppressive bacteria[J].Science,2011,332(6033):1097-1100.

[12]CALLAWAY R M,MONTESINOS D,WILLIAMS K,et al.Native congeners provide biotic resistance to invasive Potentilla through soil biota[J].Ecology,2013,94(6):1223-1229.

[13]NIE L,PENG S,BOUMAN B A M,et al.Alleviation of soil sickness caused by aerobic monocropping：growth response of aerobic rice to soil oven heating[J].Plant and Soil,2007,300(1):185-195.

[14]SASAKI Y,HOSEN Y,PENG S,et al.Do abiotic factors cause a gradual yield decline under continuous aerobic rice cultivation[J].Soil Science and Plant Nutrition,2010,56(3):476-482.

[15]YIM B,SMALLA K,WINKELMANN T.Evaluation of apple replant problems based on different soil disinfection treatments-links to soil microbial community structure[J].Plant and Soil,2013,366(1-2):617-631.

[16]JAFFEE B A,ABAWI G S,MAI W F.Role of soil microflora and Pratylenchus penetrans in an apple replant disease[J].Phytopathology,1982,72(2):247-251.

[17]HANSEN J D,JOHNSON J A,WINTER D A.History and use of heat in pest control:a review[J].International Journal of Pest Management,2011,57(4):267-289.

[18]PULLMAN G S,DEVAY J E,GARBER R H.Soil solarization and thermal death:a logarithmic relationship between time and temperature for four soilborne plant pathogens[J].Phytopathology,1981,71(9):959-964.

[19]MORITSUKA N,YANAI J,KOSAKI T.Effect of soil heating on the dynamics of soil available nutrients in the rhizosphere[J].Soil Science and Plant Nutrition,2001,47:323-331.

[20]ZURAWICZ E,PRUSKI K,LEWANDOWSKI M,et al.Effect of replant disease on growth of Malus × domestica ‘Ligol’ cultivated on P-series apple rootstocks[J].Journal of Agricultural Science,2013,5(10):28-33.

[21]GIARDINA C P,SANFORD R L,D�hCKERSMITH I C,et al.The effects of slash burning on ecosystem nutrients during the land preparation phase of shifting cultivation[J].Plant and Soil,2000,220(1-2):247-260.

[22]SERRASOLSAS I,KHANNA P.Changes in heated and autoclaved forest soils of S.E.Australia.I.Carbon and nitrogen[J].Biogeochemistry,1995,29(1):3-24.

[23]SERRASOLSAS I,KHANNA P.Changes in heated and autoclaved forest soils of S.E.Australia.II.Phosphorus and phosphatase activity[J].Biogeochemistry,1995,29(1):25-41.

[24]贺超兴,张志斌,王怀松.高温热水处理防治温室番茄土壤根结线虫的研究[J].北方园艺,2009(5):140-142.

[25]顾和平,袁星星,陈新,等.高温浸泡土壤对连作大棚土体修复和病害防治的效果[J].江苏农业科学,2013,41(7):348-351.

[26]冯义,蔡明佳,訚卫红.高温闷棚技术在大棚辣椒连作生产上的应用[J].长江蔬菜,2014(12):55-58.

[27]SHUKLA A,DWIVEDI S K.Implication of solarization against soil-borne fusaria in leguminous crop fields in Kalli paschim village in Lucknow,India:a tropical country[J].International Journal of Environmental Sciences,2011,2(2):1083-1092.

[28]GILARDI G,DEMARCHI S,GULLINO M L,et al.Effect of simulated soil solarization and organic amendments on Fusarium wilt of rocket and basil under controlled conditions[J].Journal of Phytopathology,2014,162(9):557-566.

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Last Update: 2016-06-16