«ÉÏһƪ/Previous Article|±¾ÆÚĿ¼/Table of Contents|ÏÂһƪ/Next Article»

¡¶½­ËÕÅ©Òµ¿Æѧ¡·[ISSN:1002-1302/CN:32-1214/S]

¾í:

µÚ47¾í

ÆÚÊý:

2019ÄêµÚ01ÆÚ

Ò³Âë:

5-11

À¸Ä¿:

רÂÛÓë×ÛÊö

³ö°æÈÕÆÚ:

2019-01-05

ÎÄÕÂÐÅÏ¢/Info

Title:

Research progress and prospect of phytoremediation of heavy metal contaminated soils

×÷Õß:

Èκ£Ñå;  ºú½¡;  ºúÒã·É

ÄϾ©Å©Òµ´óѧ²ÝҵѧԺ£¬½­ËÕÄϾ© 210095

Author(s):

Ren Haiyan; et al

¹Ø¼ü´Ê:

ÍÁÈÀÎÛȾ; ÖؽðÊô; Ö²ÎïÖÖ; Ö²ÎïÐÞ¸´

Keywords:

-

·ÖÀàºÅ:

X53

DOI:

-

ÎÄÏ×±êÖ¾Âë:

A

ÕªÒª:

½üÄêÀ´£¬ÖؽðÊôÎÛȾÍÁÈÀµÄÇé¿öÈÕÒæÑÏÖØ£¬Ö²ÎïÐÞ¸´¼¼ÊõÒÔÆäµÍÁ®¡¢»·±£µÈÓÅÊƳÉΪÑо¿Èȵ㡣ÒÑÖªµÄ´ó¶àÊý³¬¸»¼¯Ö²ÎïÓÉÓÚÉúÎïÁ¿¡¢¸ù¾¥ÀàÐ͵ÈÉúÎïѧÌØÐÔºÍÉúÀíÌØÕ÷²»Í¬¶ø¾ßÓÐÒ»¶¨ÐÞ¸´ÖؽðÊôÎÛȾÍÁÈÀµÄÄÜÁ¦¡£¸ù¾ÝÖ²ÎïµÄÖؽðÊô¸»¼¯Ö¸Êý(BCF)£¬¼´Ö²ÎïÌåÄÚÖؽðÊôº¬Á¿ÓëÍÁÈÀÖÐÖؽðÊôº¬Á¿µÄ±ÈÖµ£¬½«Ö²ÎïÐÞ¸´ÄÜÁ¦·ÖΪ½ÏÇ¿(BCF>1)¡¢ÖеÈ(0.1

Abstract:

-

²Î¿¼ÎÄÏ×/References:

£Û1£ÝLiu P£¬Qiu G L£¬Shang L H. Phytoremediation of mercury contaminated soil£ºA review£ÛJ£Ý. Chinese Journal of Ecology£¬2007£¬26(6)£º933-937.
£Û2£ÝÂíÑå. ÍÁÈÀÖؽðÊôÎÛȾ¼°ÆäÖ²ÎïÐÞ¸´Ñо¿×ÛÊö£ÛJ£Ý. ¸ÊËàÅ©Òµ¿Æ¼¼£¬2016(2)£º69-74.
£Û3£ÝÀî溣¬ÖÜÑÞÎÄ£¬³ÂÉ­. ÎÒ¹úÍÁÈÀïÓÎÛȾÏÖ×´¡¢Î£º¦¼°¹²ÖÎÀí·½·¨×ÛÊö£ÛJ£Ý. °²»Õũѧͨ±¨£¬2015£¬21(24)£º104-107.
£Û4£ÝAlkorta I£¬Hern¨¢ndez-Allica J£¬Becerril J M£¬et al. Recent findings on the phytoremediation of soils contaminated with environmentally toxic heavy metals and metalloids such as zinc£¬cadmium£¬lead£¬and arsenic£ÛJ£Ý. Reviews in Environmental Science and Biotechnology£¬2004(3)£º71-90.
£Û5£ÝMcIntyre T. Phytoremediation of heavy metals from soils£ÛJ£Ý. Advances in Biochemical Engineering/Biotechnology£¬2003£¬78£º97-123.
£Û6£ÝÑîÆôÁ¼£¬ÎäÕñÖУ¬³Â½ðÁ꣬µÈ. Ö²ÎïÐÞ¸´ÖؽðÊôÎÛȾÍÁÈÀµÄÑо¿ÏÖ×´¼°ÆäË®·Êµ÷¿Ø¼¼ÊõÕ¹Íû£ÛJ£Ý. Éú̬»·¾³Ñ§±¨£¬2015£¬24(6)£º1075-1084.
£Û7£ÝºÂ´ó³Ì£¬Öܽ¨Ç¿£¬Íõ´³£¬µÈ. ÖؽðÊôÎÛȾÍÁÈÀµÄÖ²Îï·ÂÉúºÍÖ²ÎïÐÞ¸´±È½ÏÑо¿£ÛJ£Ý. ÉúÎï¼¼Êõͨ±¨£¬2017£¬33(2)£º66-71.
£Û8£ÝMoffat A S. Plants proving their worth in toxic metal clean up£ÛJ£Ý. Science£¬1995£¬269(5222)£º302-303.
£Û9£ÝBaker A J M£¬McGrath S P£¬Sidoli C M D£¬et al. The possibility of in situ heavy metal decontamination of polluted soils using crops of metal- accumulating plants£ÛJ£Ý. Resources£¬Conservation and Recycling£¬1994£¬11(1/2/3/4)£º41-49.
£Û10£Ý³ÂÓ¢Ñô. ÍÁÈÀÖؽðÊôµÄÖ²ÎïÎÛȾ»¯Ñ§£ÛM£Ý. ±±¾©£º¿Æѧ³ö°æÉ磬2008£º210-214.
£Û11£ÝÁõÜ磬ãÆÎĵ£¬ÏîÎÄ»¯. Ïæ̶ÃÌ¿óÒµ·ÏÆúµØÍÁÈÀÖؽðÊôº¬Á¿¼°Ö²ÎïÎüÊÕÌØÕ÷£ÛJ£Ý. ÖÐÄÏÁÖÒµ¿Æ¼¼´óѧѧ±¨£¬2009£¬29(4)£º25-29.
£Û12£ÝÂæÓÀÃ÷. ½ðÊôÎÛȾÍÁÈÀµÄÖ²ÎïÐÞ¸´£ÛJ£Ý. ÍÁÈÀ£¬1999(5)£º261-265.
£Û13£ÝÐÏÑÞ˧£¬ÇǶ¬Ã·£¬Öì¹ð·Ò. ÍÁÈÀÖؽðÊôÎÛȾ¼°Ö²ÎïÐÞ¸´¼¼ÊõÑо¿½øÕ¹£ÛJ£Ý. Öйúũѧͨ±¨£¬2014£¬30(17)£º208-214.
£Û14£Ý»·¾³±£»¤²¿£¬¹úÍÁ×ÊÔ´²¿. È«¹úÍÁÈÀÎÛȾ״¿öµ÷²é¹«±¨£ÛZ/OL£Ý.(2014-4-17)£Û2017-9-1£Ý. https://wenku.baidu.com/view/71b0794b90c69ec3d5bb7559.html.
£Û15£ÝΤ³¯Ñô£¬³Âͬ±ó. ÖؽðÊô³¬¸»¼¯Ö²Îï¼°Ö²ÎïÐÞ¸´¼¼ÊõÑо¿½øÕ¹£ÛJ£Ý. Éú̬ѧ±¨£¬2001£¬21(7)£º1196-1203.
£Û16£ÝÕŸ»ÔË£¬³ÂÓÀ»ª£¬ÎâÏþܽ. Ǧп³¬¸»¼¯Ö²Îï¼°ÄÍÐÔÖ²ÎïɸѡÑо¿½øÕ¹£ÛJ£Ý. ÖÐÄÏÁÖÒµ¿Æ¼¼´óѧѧ±¨£¬2012£¬32(12)£º92-96.
£Û17£ÝÍõÇ캣£¬È´Ïþ¶ð. ÖÎÀí»·¾³ÎÛȾµÄÂÌÉ«Ö²ÎïÐÞ¸´¼¼Êõ£ÛJ£Ý. ÖйúÉú̬ũҵѧ±¨£¬2013£¬21(2)£º261-266.
£Û18£ÝKachem M A£¬Singh B R£¬Kondo T£¬et al. Comparison of extractability of Cd£¬Cu£¬Pb and Zn with sequential extraction in contaminated and non-contaminated soils£ÛJ£Ý. International Journal of Environmental Science and Technology£¬2007£¬4(2)£º169-176.
£Û19£ÝHu C£¬Qi Y. Long-term effective microorganisms application promote growth and increase yields and nutrition of wheat in China£ÛJ£Ý. European Journal of Agronomy£¬2013£¬46(2)£º63-67.
£Û20£ÝÕÅÀÙ£¬Ñ£¬Â³Ñ©£¬µÈ. ÍÁÈÀÖؽðÊôÎÛȾµÄÖ²ÎïÐÞ¸´£ÛJ£Ý. ¶«±±Ë®ÀûË®µç£¬2013(2)£º58-60.
£Û21£ÝBaker A J M£¬Brooks R R. Terrestrial higher plants which hyper-accumulate metallic elements-a review of their distribution£¬ecology and phytochemistry£ÛJ£Ý. Biorecovery£¬1989(1)£º81-126.
£Û22£ÝÐíÃô. Á½ÖÖÜÙÞ£ÊôÖ²Îï¶Ôͭβ¿óÉ°µÄÄÍÐÔ¼°ÐÞ¸´Ç±Á¦Ñо¿£ÛD£Ý. Äϲý£º½­Î÷²Æ¾­´óѧ£¬2014£º25-29.
£Û23£ÝChen D£¬Wang Y£¬Lan Z£¬et al. Biotic community shifts explain the contrasting responses of microbial and root respiration to experimental soil acidification£ÛJ£Ý. Soil Biology and Biochemistry£¬2015£¬90£º139-147.
£Û24£ÝKeymer D P£¬Lankau R A. Disruption of plant-soil-microbial relationships influences plant growth£ÛJ£Ý. Journal of Ecology£¬2016£¬105(3)£º816-827.
£Û25£ÝSun L N£¬Zhang Y F£¬He L Y£¬et al. Genetic diversity and characterization of heavy metal-resistant-endophytic bacteria from two copper-tolerant plant species on copper mine wasteland£ÛJ£Ý. Bioresource Technology£¬2010£¬101(2)£º501-509.
£Û26£ÝXie H L£¬Jiang R F£¬Zhang F S£¬et al. Effect of nitrogen form on the rhizosphere dynamics and uptake of cadmium and zinc by the hyperaccumulator Thlaspi caerulescens£ÛJ£Ý. Plant and Soil£¬2009£¬318(1/2)£º2050-215.
£Û27£ÝLe X H£¬Franco C M M£¬Ballard R A£¬et al. Isolation and characterisation of endophytic actinobacteria and their effect on the early growth and nodulation of lucerne (Medicago sativa L.)£ÛJ£Ý. Plant and Soil£¬2016£¬405(1/2)£º13-24.
£Û28£Ý·ë×ÓÁú£¬Â¬ÐÅ£¬ÕÅÄÈ£¬µÈ. Å©ÒÕÇ¿»¯´ëÊ©ÓÃÓÚÖ²ÎïÐÞ¸´ÖؽðÊôÎÛȾÍÁÈÀµÄÑо¿½øÕ¹£ÛJ£Ý. ½­ËÕÅ©Òµ¿Æѧ£¬2017£¬45(2)£º14-20.
£Û29£ÝÄôÑÇƽ£¬ÍõÏþά£¬Íò½øÈÙ£¬µÈ. ¼¸ÖÖÖؽðÊô(Pb¡¢Zn¡¢Cd¡¢Cu)µÄ³¬¸»¼¯Ö²ÎïÖÖÀ༰ÔöÇ¿Ö²ÎïÐÞ¸´´ëÊ©Ñо¿½øÕ¹£ÛJ£Ý. Éú̬¿Æѧ£¬2016£¬35(2)£º174-182.
£Û30£ÝÕÅÐӷ棬ÏĺºÆ½£¬ÀîÖ¾°²£¬µÈ. ÄÁ²Ý¶ÔÖؽðÊôÎÛȾÍÁÈÀµÄÖ²ÎïÐÞ¸´×ÛÊö£ÛJ£Ý. Éú̬ѧÔÓÖ¾£¬2009£¬28(8)£º1640-1646.
£Û31£Ý³Â³ÐÀû£¬ÁÎÃô. ÖؽðÊôÎÛȾÍÁÈÀÐÞ¸´¼¼ÊõÑо¿½øÕ¹£ÛJ£Ý.¹ã¶«Î¢Á¿ÔªËØ¿Æѧ£¬2004£¬11(10)£º1-8.
£Û32£ÝQiu R L£¬ Fang X H£¬ Tang Y T£¬ et al. Zinc hyperaccumulation and uptake by potentilla griffithii hook £ÛJ£Ý. International Journal of Phytoremediation£¬ 2006£¬ 8(4)£º 299-310.
£Û33£ÝÀîËÉ¿Ë£¬ÕÅ´ºÁÖ£¬Àî¿ËÇÚ£¬µÈ. ¶àÄêÉúºÚÂó²Ý¶Ô»ÆÈÀÖؽðÊôÎÛȾµÄÐÞ¸´£ÛJ£Ý. ¹óÖÝÅ©Òµ¿Æѧ£¬2014£¬42(11)£º147-151.
£Û34£ÝHughes S J£¬Snowball R£¬Reed K F M£¬et al. The systematic collection and characterisation of herbaceous forage species for recharge and discharge environments in southern Australia£ÛJ£Ý. Australian Journal of Experimental Agriculture£¬2008£¬48(4)£º397-408.
£Û35£ÝÖìºç£¬×æÔª¸Õ£¬ÍõÎĽܣ¬µÈ. ÑμîµØµÄÖ²±»»Ö¸´ÓëÑμîµØ¸ÄÁ¼·½·¨µÄÆÀÊö£ÛJ£Ý. ¼ªÁÖÁÖÒµ¿Æ¼¼£¬2007£¬36(5)£º14-21.
£Û36£ÝRen H Y£¬Han G D£¬Sch¢‰nbach P£¬et al. Forage nutritional characteristics and yield dynamics in a grazed semiarid steppe ecosystem of inner Mongolia£¬China£ÛJ£Ý. Ecological Indicators£¬2016(60)£º460-469.
£Û37£ÝRoy S£¬Labelle S£¬Mehta P£¬et al. Phytoremediation of heavy metal and PAH-contaminated brownfield sites£ÛJ£Ý. Plant and Soil£¬2005£¬272(1/2)£º277-290.
£Û38£ÝÂæÓÀÃ÷. ÖйúÖ÷ÒªÍÁÈÀ»·¾³ÎÊÌâÓë¶Ô²ß£ÛM£Ý. ÄϾ©£ººÓº£´óѧ³ö°æÉ磬2008£º26-29.
£Û39£ÝMosquera-Losada M R£¬L¨®pez-D¨ªaz L£¬Rigueiro-Rodr¨ªguez A. Sewage sludge fertilisation of a silvopastoral system with pines in northwestern Spain£ÛJ£Ý. Agroforestry Systems£¬2001£¬53(1)£º1-10.
£Û40£ÝClemente R£¬Paredes C£¬Bernal M P. A field experiment investigating the effects of olive husk and cow manure on heavy metal availability in a contaminated calcareous soil from Murcia (Spain)£ÛJ£Ý. Agriculture£¬Ecosystems and Environment£¬2007£¬118(1)£º319-326.
£Û41£ÝKr¢|mer U£¬Janet D£¬Charnock J M£¬et al. Free histidine as a metal chelat or in plant s that accumulate nickel£ÛJ£Ý. Nature£¬1996£¬379£º635-638.
£Û42£ÝShen Z G£¬Zhao F J£¬Mcgrath S P. Uptake and transport of zinc in the hyperaccumulator Thlaspi caerulescens and the non-hyperaccumlator Thlaspi ochroleucum£ÛJ£Ý. Plant Cell & Environment£¬1997£¬20£º898-906.
£Û43£ÝZhu X Z£¬Ni X£¬Gao Y Z. Applications of endophytic bacteria in phytoremediation of heavy metals- contaminated soils£ÛJ£Ý. Chinese journal of ecology£¬2010£¬29(10)£º2035-2041.
£Û44£ÝDhankher O P£¬Li Y J£¬Rosen B P£¬et al. Engineering tolerance and hyperaccumulation of arsenic in plants by combining arsenate reductase and ¦Ã-glutamylcysteine synthetase expression£ÛJ£Ý. Nature Biotechnology£¬2002£¬20(11)£º1140-1145.
£Û45£ÝBrunetti C£¬Di Ferdinando M£¬Fini A£¬et al. Flavonoids as antioxidants and developmental regulators£ºrelative significance in plants and humans£ÛJ£Ý. International Journal of Molecular Sciences£¬2013£¬14(2)£º3540-3555.
£Û46£ÝGupta A£¬Dutta A£¬Sarkar J£¬et al£¬2017. Metagenomic exploration of microbial community in mine tailings of Malanjkhand copper project£¬India£ÛJ£Ý. Genomics Data£¬2017(12)£º11-13.
£Û47£ÝGardezi A K£¬Barcelo-Quintal I D£¬Cetina-Alcala V M£¬et al. Preliminary studies of phytoremediation by Leucaena leucocephala in association with arbuscular endomycorrhiza and Rhizobium in soil polluted by Cu and Cr£ºthe 7th World Multi-Conferenceon Systemics£¬Cybernetics and Informatics£ÛC£Ý. Orlando£ºInternational Institute of Informatics and Systemics£¬2003(14)£º6.
£Û48£ÝSheng X F£¬He L Y£¬Wang Q Y£¬et al. Effects of inoculation of biosurfactant-producing Bacillu ssp.J119 on plant growth and cadmium uptake in a cadmium-amended soil£ÛJ£Ý. Journal of Hazardous Materials£¬2008£¬155(1/2)£º17-22.
£Û49£ÝSun Y B£¬Zhou Q X£¬Wang L£¬et al. The influence of different growth stages and dosage of EDTA on Cd uptake and accumulation in Cd-hyperaccumulator (Solanum nigrum L.)£ÛJ£Ý. Bulletin of Environmental Contamination and Toxicology£¬2009(82)£º348-353.
£Û50£ÝShi J Y£¬Yuan X F£¬Chen X C£¬et al. Copper uptake and its effect on metal distribution in root growth zones of Commelina communis revealed by SRXRF£ÛJ£Ý. Biological Trace Element Research£¬2011£¬141(1/2/3)£º294-304.
£Û51£ÝÑîÑ󣬳ÂÖ¾Åô£¬ÀèºìÁÁ£¬µÈ. Á½ÖÖÅ©ÒµÖÖֲģʽ¶ÔÖؽðÊôÍÁÈÀµÄÐÞ¸´Ç±Á¦£ÛJ£Ý. Éú̬ѧ±¨£¬2016£¬36(3)£º688-695.
£Û52£ÝºúÅô½Ü£¬ÀîÖù£¬ÖÓµÀÐñ£¬µÈ. ÎÒ¹úÍÁÈÀÖؽðÊôÎÛȾֲÎïÎüÈ¡ÐÞ¸´Ñо¿½øÕ¹£ÛJ£Ý. Ö²ÎïÉúÀíѧ±¨£¬2014£¬50(5)£º577-584.

ÏàËÆÎÄÏ×/References:

[1]Øá¹ã¶«,Àîéó,·½Ïþº½,µÈ.ÁòÑõ»¯¾úÉúÎïÁÜÂËÐÞ¸´ÖؽðÊôÎÛȾÑо¿½øÕ¹[J].½­ËÕÅ©Òµ¿Æѧ,2013,41(05):335.
¡¡Kuai Guangdong,et al.Research progress on heavy metal pollution restoring by bioleaching of sulfur-oxidizing bacteria[J].Jiangsu Agricultural Sciences,2013,41(01):335.
[2]ÀµÓ±,ÕÔ½õ»Û,ÑîͬÎÄ,µÈ.·¢½ÍÐÔ½áºÏ½Íĸ¾ú¶ÔÖؽðÊôÎü¸½ÄÜÁ¦µÄÑо¿[J].½­ËÕÅ©Òµ¿Æѧ,2014,42(11):398.
¡¡Lai Ying,et al(98).Study on adsorption capacity of fermentation of yeast to heavy metals[J].Jiangsu Agricultural Sciences,2014,42(01):398.
[3]ÎâÉÙ·É,¶¡Öñºì,ºúÐÃ,µÈ.EDTA¼°ÆäÓëÄûÃÊËá½»Ìæ¶ÔÎÛȾˮµ¾ÍÁÈÀÖؽðÊôÔªËصķֲ½Á¬ÐøÌáÈ¡Ñо¿[J].½­ËÕÅ©Òµ¿Æѧ,2014,42(11):369.
¡¡Wu Shaofei,et al(9).Study on sequential extraction of heavy metal from contaminated paddy soil using EDTA and citric acid[J].Jiangsu Agricultural Sciences,2014,42(01):369.
[4]ÀîÑó,ÓÎÉÙºè,ÁÖ×ÓÓê,µÈ.ÝÅÆѶÔ5ÖÖÖؽðÊô¸»¼¯ÄÜÁ¦µÄ±È½Ï[J].½­ËÕÅ©Òµ¿Æѧ,2014,42(11):383.
¡¡Li Yang,et al(8).Comparative study on enrichment capacity of calamus to five kinds of heavy metals[J].Jiangsu Agricultural Sciences,2014,42(01):383.
[5]ÖÜÇØ,»Æ½£ÁÖ.ICP-MS·¨Óëʯī¯ԭ×ÓÎüÊÕ·¨²â¶¨Ë®ÖÐÖؽðÊôº¬Á¿µÄ±È½Ï[J].½­ËÕÅ©Òµ¿Æѧ,2013,41(06):283.
¡¡Zhou Qin,et al.Comparison of ICP-MS method and graphite furnace atomic absorption spectrometry in determination of heavy metals contents in water[J].Jiangsu Agricultural Sciences,2013,41(01):283.
[6]Àîºã,ÁúÖù,·ëȺ²ß.·ÏÖ½ÍÑÄ«ÎÛÄàòÇò¾ÉúÎï´¦ÀíЧӦ[J].½­ËÕÅ©Òµ¿Æѧ,2014,42(09):358.
¡¡Li Heng,et al.Biological treatment effect of waste paper deinking sludge by earthworm[J].Jiangsu Agricultural Sciences,2014,42(01):358.
[7]Áõ¹óÇÉ,ÍõÓÀϼ,Íõ½¨Ã÷,µÈ.4ÖÖʳÓþúÖÐÖؽðÊôº¬Á¿¼°Ê³Óð²È«ÆÀ¼Û[J].½­ËÕÅ©Òµ¿Æѧ,2014,42(09):268.
¡¡Liu Guiqiao,et al.Heavy metal contents and food safety assessment of 4 kinds of edible fungi[J].Jiangsu Agricultural Sciences,2014,42(01):268.
[8]×ÞìÇìÜ,ÀîÓÂ,ÕÔÖ¾ÖÒ,µÈ.¶«Õ¯¸ÛºìÊ÷ÁÖ³Á»ýÎïÖؽðÊôµÄ´¹Ïò·ÖÒì¼°ÎÛȾÆÀ¼Û[J].½­ËÕÅ©Òµ¿Æѧ,2014,42(08):327.
¡¡Zou Yefan,et al.Vertical distribution and pollution assessment of heavy metals in sediment of Dongzhai Port mangroves[J].Jiangsu Agricultural Sciences,2014,42(01):327.
[9]IJÐÂÀû,¹ù¼Ñ,ÁõÉÙ´ï,µÈ.ÈýÏ¿¿âÇøÅ©ÁÖÍÁÈÀÖؽðÊôÐÎ̬·Ö²¼ÓëÎÛȾÆÀ¼Û[J].½­ËÕÅ©Òµ¿Æѧ,2013,41(09):314.
¡¡Mou Xinli,et al.Distribution of heave metals and pollution assessment of agriculture and forest soils in Three Gorges Reservoir Area[J].Jiangsu Agricultural Sciences,2013,41(01):314.
[10]ÅËÑ©æ¯,ÀîÖ¾Ã÷,³ÂÇà¾ý,µÈ.²»Í¬±ÈÀýÕÓÔü×÷Ϊ¸²ÍÁ²ÄÁÏÔÔÅàË«æß¹½ÊÔÑé[J].½­ËÕÅ©Òµ¿Æѧ,2016,44(03):179.
¡¡Pan Xuejiao,et al.Cultivation experiment of Agaricus bisporus with different proportion of biogas residues as casing soil[J].Jiangsu Agricultural Sciences,2016,44(01):179.
[11]¬ÐÅ,ÂÞ¼Ñ,¸ßÑÒ,µÈ.ÍÁÈÀÎÛȾ¶ÔÅ©²úÆ·ÖÊÁ¿°²È«µÄÓ°Ïì¼°·ÀÖζԲß[J].½­ËÕÅ©Òµ¿Æѧ,2014,42(07):288.
¡¡Lu Xin,et al.Effect of soil pollution on quality and safety of agricultural products and its control measures[J].Jiangsu Agricultural Sciences,2014,42(01):288.
[12]·ë×ÓÁú,¬ÐÅ,ÕÅÄÈ,µÈ.Å©ÒÕÇ¿»¯´ëÊ©ÓÃÓÚÖ²ÎïÐÞ¸´ÖؽðÊôÎÛȾÍÁÈÀµÄÑо¿½øÕ¹[J].½­ËÕÅ©Òµ¿Æѧ,2017,45(02):14.
¡¡Feng Zilong et al.Research progress on application of agronomic enhancement measures in phytoremediation of heavy metal contaminated soil[J].Jiangsu Agricultural Sciences,2017,45(01):14.
[13]Ò¦º½,ÕÅÐÓ·æ.Îý¿ó¿ª²É¶ÔÍÁÈÀµÄÖؽðÊôÎÛȾ¼°·çÏÕÆÀ¼Û¡ª¡ªÒÔ¹ãÎ÷Äϵ¤ÏØ´ó³§ÕòΪÀý[J].½­ËÕÅ©Òµ¿Æѧ,2017,45(06):230.
¡¡Yao Hang,et al.Effect of tin mining on heavy metal contamination and risk assessment of soil¡ªTaking Dachang Town£¬Nandan County£¬Guangxi as an example[J].Jiangsu Agricultural Sciences,2017,45(01):230.
[14]´ú¾²,˾Íòͯ,ÕÔÑ©²¨,µÈ.Ï¡ÍÁβ¿ó¿â¸´ºÏÎÛȾ¶ÔÖܱßÍÁÈÀ·ÊÁ¦µÄÓ°Ïì[J].½­ËÕÅ©Òµ¿Æѧ,2017,45(20):299.
¡¡Dai Jing,et al.Influence of rare tailings compound contamination on fertility of surrounding soil[J].Jiangsu Agricultural Sciences,2017,45(01):299.
[15]ͯ·Ç,лÓñ·å,ÕÅÕñ»ª,µÈ.ÉéÎÛȾÍÁÈÀԭλ¶Û»¯²ÄÁÏÐÞ¸´Ð§¹û¼°»úÖƵÄÑо¿½øÕ¹[J].½­ËÕÅ©Òµ¿Æѧ,2019,47(22):6.
¡¡Tong Fei,et al.Research progress of remediation effect and mechanism of in situ passivation materials in arsenic-contaminated soil[J].Jiangsu Agricultural Sciences,2019,47(01):6.
[16]Âí½Ü,ÕÅÐã,Áõ½ñ³¯,µÈ.ÖØÇìÊÐij¿óÇøúí·É½Öܱ߸ûµØÍÁÈÀÖؽðÊô·Ö²¼ÌØÕ÷ÓëÎÛȾÆÀ¼Û[J].½­ËÕÅ©Òµ¿Æѧ,2022,50(13):242.
¡¡Ma Jie,et al.Distribution characteristics and pollution assessment of heavy metals in arable soils around coal gangue mountain in a mining area in Chongqing City[J].Jiangsu Agricultural Sciences,2022,50(01):242.

±¸×¢/Memo

±¸×¢/Memo:

ÊÕ¸åÈÕÆÚ£º2017-09-21
»ù½ðÏîÄ¿£º½­ËÕÊ¡×ÔÈ»¿Æѧ»ù½ð(±àºÅ£ºSBK2016041299)£»ÖÐÑë¸ßУ»ù±¾¿ÆÑÐÒµÎñ·ÑרÏî(±àºÅ£ºKYZ201672)¡£
×÷Õß¼ò½é£ºÈκ£Ñå(1983¡ª)£¬Å®£¬ÄÚÃɹźôºÍºÆÌØÈË£¬²©Ê¿£¬¸±½ÌÊÚ£¬´ÓʲݵØ΢Éú̬ÓëÖ²±»»Ö¸´Ñо¿¡£E-mail£ºhren@njau.edu.cn¡£

³£Óù¦ÄÜ

¸üÐÂÈÕÆÚ/Last Update: 2019-01-05