«Previous Article|Table of Contents|Next Article»

¡¶±±·½Ô°ÒÕ¡·[ISSN:1001-0009/CN:23-1247/S]

Issue:

2020Äê18

Page:

71-77

Research Field:

Publishing date:

Info

Title:

Wild Hydrangea paniculata Sieb.Growth and ª¥Physiological Response to Lead Stress

Author(s):

XING Chunyan1; ZHOU Yuqing2; ZHAO Jiuzhou2; KONG Xiang3

(1.Nanchang business School,Jiangxi Agricatultural University,Nanchang£¬Jiangxi 330013£»2.Art College£¬Jiangxi University of Finance and Economics£¬Nanchang£¬Jiangxi 330032£»3.Qingdao Qingte Home Industry Limited Company,Qingdao£¬Shandong 266109)

Keywords:

lead stress; growth; physiological index; phytoremediation; Hydrangea paniculata Sieb

PACS:

-

DOI:

10.11937/bfyy.20194258

Abstract:

Hydrangea paniculata Sieb. was cultivated in hydroponics,in which Pb(NO3)2 was in different concentrations that were 0 mg?L-1,50 mg?L-1,100 mg?L-1,150 mg?L-1,200 mg?L-1,respectively,and the growth and physiological index were measured in 5 days,10 days,15 days,20 days,25 days.The results showed that the treatment of 50 mg?L-1 Pb(NO3)2 had higher value in leaf number,relative biomass,plant height,root length,relative growth rate (RGR),net assimilation rate (NAR),biomass (DB) as well as the content of chlorophyll and carotenoid than those of CK,respectively.The content of malondialdehyde (MDA),proline (Pro),as well as the activity of peroxidase (POD) and superoxide enzyme (SOD) were no significance of CK.Lead stress injury symptom survey indicated that the lead patience threshold was application of Pb(NO3)2 up to concentrations of 150 mg?L-1,more than which the relative growth rate (RGR),net assimilation rate (NAR) and biomass (DB) were reduced significantly over 25 days post period when lead concentration increased,and the chlorophyll and carotenoid content decreased with the extension of processing time and had more reduce,but malondialdehyde(MDA),proline (Pro) concentration accumulating increased,peroxidase (POD) and superoxide disproportionation enzyme (SOD) activity increased,respectively.Hydrangea paniculata Sieb.had strongly resistance to lead,for which could be used for soil remediation in lead tailings and phytoremediation in lead-contaminated soil areas.

References:

[1]BURZYSKI M£¬KOBUS.Changes of photosynthetic parameters in cucumber leaves under Cu,Cd,and Pb stress[J].Photosynthetica£¬2004,42(4):505-510.[2]¿ÂÇìÃ÷£¬Ö£Áú£¬·½¼ÓÁú£®Êß²ËÖؽðÊôÎÛȾÑо¿ÏÖ×´ÓëÕ¹Íû[J].¼ªÁÖÊ߲ˣ¬2008(3)£º79-81£®[3]¶¼·ïÈÊ£¬²Ù»ùÓñ.Ì«ºÍÏØijµØÇø»·¾³Ç¦ÎÛȾµ÷²é[J].ÖйúÅ©´åÎÀÉúÊÂÒµ¹ÜÀí£¬2008£¬28(11):855-857.[4]ÀîÎÄ,Áõ¼Ò¾Ô£¬¸ßÊÙȪ£¬µÈ.ijÏçÕòǦұÁ¶³§Ç¦ÎÛȾµ÷²é·ÖÎö[J].Öйúְҵҽѧ£¬2005,32(6)£º29-30.[5]¿×Ïè.Բ׶ÐåÇò£¨ª«Hydrangea paniculataª«£©¶ÔǦвÆȵÄÉúÀíÏìÓ¦¼°Ç¦ÔÚÆäÄڵĻýÀÛÌØÐÔ[D].Äϲý£º½­Î÷²Æ¾­´óѧ,2009.[6]ARRIAGADA C A£¬HERRERA M A£¬OCAMPO J A.Contribution of arbuscular mycorrhizal and saprobe fungi to the tolerance of ª«Eucalyptus globulus ª«to Pb[J].Water Air & Soil Pollution£¬2005£¬166(1-4):31-47.[7]CLAUDIA B£¬MARIT K£¬MARIA B£¬et al.Advances in phytoremediation:Phytotransformation[J].Nato Science,2002(15):115-140.[8]POURRUT B,SHAHID M,DOUAY F,et al.Pinelli molecular mechanisms involved in lead uptake£¬toxicity and detoxification in higher plants[J].Heavy Metal Stress in Plants,2013(1):121-147.[9]JIANG Z F£¬HUANG S Z£¬HAN Y L£¬et al.Physiological response of Cu and Cu mine tailing remediation of ª«Paulownia fortuneiª« (Seem) Hemsl[J].Ecotoxicology£¬2012£¬21(3):759-767.[10]KOSOBRUKHOV A£¬KNYAZEVA I£¬MUDRIK V.Plantago major plants responses to increase content of lead in soil:Growth and photosynthesis[J].Plant Growth Regulation£¬2004£¬42(2):145-151.[11]ÇØÌì²Å.ïÓ¡¢Ç¦¼°ÆäÏ໥×÷ÓöÔС°×²ËÉúÀíÉú»¯ÌØÐÔµÄÓ°Ïì[J].Éú̬ѧÔÓÖ¾£¬1994£¬16(3):31-34.[12]ÀîºÏÉú.Ö²ÎïÉúÀíÉú»¯Ô­ÀíºÍ¼¼Êõ[M].±±¾©:¸ßµÈ½ÌÓý³ö°æÉ磬2000.[13]YUAN H Y£¬HUANG S Z£¬HAN Y L£¬et al.The growth£¬lead accumulation and oxidative stress response to low and high lead exposure in ª«Iris lactea ª«var.chinensis[J].Fresenius Environmental Bulletin,2013,22(7):1887-1894.[14]HAN Y L£¬HUANG S Z£¬YUAN H Y£¬et al.Effect of Pb and Zn combined stress on the growth and elements accumulation of two different ecotype species of ª«Irisª« L.in artificial contaminated soils[J].Fresenius Environmental Bulletin£¬2013,22(5):1548-1555.[15]ÑÏÖØÁá,¸¶Ë´Õä,·½ÖØ»ª,µÈ.Hg,Cd¼°Æ乲ͬ×÷ÓöÔÑ̲ÝÒ¶ÂÌËغ¬Á¿¼°¿¹Ñõ»¯Ã¸ÏµÍ³µÄÓ°Ïì[J].Ö²ÎïÉú̬ѧ±¨,2002£¬25(3):468-473.

Memo

Memo:

-

Common functions

Last Update: 2020-12-23