WANG Li,SHAO Daixing,CHAI Guanqun,et al.Effects of Intercropping Accumulators to Cd Absorption and Accumulation in Capsicum annum L.[J].Northern Horticulture,2022,(11):16-22.[doi:10.11937/bfyy.20214849]
间作富集植物对辣椒Cd吸收累积的影响
- Title:
- Effects of Intercropping Accumulators to Cd Absorption and Accumulation in Capsicum annum L.
- Keywords:
- intercropping; Capsicum annum L.; Amaranthus hypochondriacus L.; Solanum nigrum L.; cadmium accumulation
- 文献标志码:
- A
- 摘要:
- 以辣椒、龙葵和籽粒苋为试验材料,通过辣椒分别与籽粒苋和龙葵间作田间试验,研究辣椒间作不同富集植物对辣椒镉(Cd)吸收累积的影响,以期为辣椒的安全生产提供参考依据。结果表明:与籽粒苋、龙葵间作对辣椒产量无显著影响,不同间作模式下辣椒单株果实数、单株产量及667 m2产量均无显著差异;间作籽粒苋和龙葵均能降低辣椒根、茎、叶、果实的Cd含量,间作龙葵的效果优于籽粒苋;间作籽粒苋和龙葵均能降低辣椒叶和根向果实转运Cd的能力,间作龙葵能够显著降低辣椒果实Cd的累积量。间作龙葵根、茎、叶的Cd含量均高于间作籽粒苋,间作龙葵对土壤Cd的降低作用较好。综上所述,间作龙葵能够降低辣椒果实对Cd的吸收和累积,有利于辣椒的安全生产。
- Abstract:
- Capsicum annum L.,Solanum nigrum L.and Amaranthus hypochondriacus L.were used as the test materials,and the field experiments were conducted through intercropping Capsicum annum L.with Solanum nigrum L.and Amaranthus hypochondriacus L.respectively.The effects of Capsicum annum L.intercropping with different accumulators on the uptake and accumulation of cadmium (Cd) in Capsicum annum L. were studied,in order to provide reference for the safe production of Capsicum annum L..The results showed that intercropping with Amaranthus hypochondriacus L.and Solanum nigrum L.had no significant effect on the yield of Capsicum annum L.,and there was no significant difference in fruit number per plant,yield per plant and per 667 m2 under different intercropping patterns.Intercropping with Amaranthus hypochondriacus L.and Solanum nigrum L.could reduce the Cd content of Capsicum annum L.roots,stems,leaves and fruits,and the effect of intercropping with Solanum nigrum L.were better than that of Amaranthus hypochondriacus L..Intercropping with accumulators could reduce the transport ability of Capsicum annum L.leaf and root to fruit,intercropping with Solanum nigrum L.could significantly reduce the Cd accumulation of Capsicum annum L.fruits.The content of Cd in roots,stems and leaves of intercropping Solanum nigrum L.was higher than that of intercropping Amaranthus hypochondriacus L..Intercropping with Solanum nigrum L.had a better effect on soil Cd reduction..In summary,intercropping with Solanum nigrum L.could reduce the absorption and accumulation of Cd by the fruits of Capsicum annum L.,which was beneficial to the safe production of Capsicum annum L..
参考文献/References:
[1]孙向平,张梦君,严理,等.不同类型肥料对污染稻田土壤中镉迁移转化的影响[J].江苏农业科学,2018,46(14):296-298.[2]环境保护部,国土资源部.全国土壤污染状况调查公报[R].北京:环境保护部,国土资源部,2014.[3]DU Y,HU X F,WU X H,et al.Affects of mining activities on Cd pollution to the paddy soils and rice grain in Hunan province,Central South China[J].Environmental Monitoring and Assessment,2013,185(12):9843-9856.[4]AGNELLO A C,BAGARD M,van HULLEBUSCH E D,et al.Comparative bioremediation of heavy metals and petroleum hydrocarbons co-contaminated soil by natural attenuation,phytoremediation,bioaugmentation and bioaugmentation-assisted phytoremediation[J].Science Total Environment,2016,563/564:693-703.[5]王婷.高效诱变菌与生物炭复合修复重金属污染土壤的研究[M].天津:南开大学,2013.[6]李桃.不同品种辣椒镉胁迫耐受机制研究[D].重庆:西南大学,2019.[7]王大州,林剑,王大霞,等.根际土-辣椒系统中重金属的分布及食物安全风险评价[J].地球与环境,2014,42(4):546-549.[8]彭秋,李桃,徐卫红,等.不同品种辣椒镉亚细胞分布和化学形态特征差异[J].环境科学,2019,40(7):3347-3354.[9]LIU C,CHANG C,FEI Y,et al.Cadmium accumulation in edible flowering cabbages in the pearl river delta,China:Critical soil factors and enrichment models[J].Environmental Pollution,2018,233:880-888.[10]ZENG P,GUO Z,CAO X,et al.Phytostabilization potential of ornamental plants grown in soil contaminated with cadmium[J].International Journal of Phytoremediation,2018,20(4):311-320.[11]武帅.伴矿景天与经济作物间作修复锌镉复合污染土壤及其产后处理技术[D].杭州:浙江农林大学,2018.[12]HONG Y,HEERINK N,JIN S,et al.Intercropping and agroforestry in China-Current state and trends[J].Agriculture Ecosystems & Environment,2017,244:52-61.[13]周建利,邵乐,朱凰榕,等.间套种及化学强化修复重金属污染酸性土壤:长期田间试验[J].土壤学报,2014,5(51):1056-1065.[14]SYUKOR A R A,SULAIMAN S,SIDDIQUE M N I,et al.Integration of phytogreen for heavy metal removal from wastewater[J].Journal of Cleaner Production,2016,112:3124-3131.[15]LU Q,LI J,CHEN F,et al.Effects of mutual intercropping on the cadmium accumulation in accumulator plants stellaria media,malachium aquaticum,and galium aparine[J].Environmental Monitoring and Assessment,2017,189(12):622.[16]何俊,王学东,陈世宝,等.典型污灌区土壤中Cd的形态、有效性及其影响因子[J].中国环境科学,2016,36(10):3056-3063.[17]李红艳,陈发波,黄佳璟,等.混种少花龙葵嫁接后代对镉胁迫枇杷幼苗光合生理的影响[J].土壤,2019,51(4):739-745.[18]MUPANGWA W,NYAGUMBO I,LIBEN F,et al.Maize yields from rotation and intercropping systems with different legumes under conservation agriculture in contrasting agro-ecologies[J].Agriculture Ecosystems & Environment,2021,306:107170.[19]霍文敏,赵中秋,王丽,等.不同超富集、富集植物-玉米间作模式对玉米中镉吸收、转运的影响研究[J].地学前缘,2019,26(6):118-127.[20]黑亮,吴启堂,龙新宪,等.东南景天和玉米套种对Zn污染污泥的处理效应[J].环境科学,2007(4):4852-4858.[21]赵宁宁,杜芮萍,邱丹,等.蜈蚣草-玉米套作模式对玉米砷胁迫的缓解效应[J].生态环境学报,2019,28(5):1021-1028.[22]CHENG S,CHEN T,XU W,et al.Application research of biochar for the remediation of soil heavy metals contamination:A review[J].Molecules,2020,25(14):3167.[23]王吉秀,湛方栋,李元,等.铅胁迫下小花南芥与玉米间作对根系分泌物有机酸的影响[J].中国生态农业学报,2016,24(3):365-372.[24]霍文敏,邹茸,王丽,等.间作条件下超积累和非超积累植物对重金属镉的积累研究[J].中国土壤与肥料,2019(3):165-171.[25]LIU L,ZHANG Q,HU L,et al.Legumes can increase cadmium contamination in neighboring crops[J].PLoS One,2012,7(8):e42944.[26]HU J L,CHAN P T,WU F Y,et al.Arbuscular mycorrhizal fungi induce differential Cd and P acquisition by Alfred stonecrop and upland Hangkong in an intercropping system[J].Applied Soil Ecology,2013,63:29-35.
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备注/Memo
第一作者简介:王丽(1995-),女,硕士,研究实习员,现主要从事重金属污染修复等研究工作。E-mail:1924974846@qq.com.责任作者:范成五(1977-),男,本科,副研究员,现主要从事农业资源利用与环境等研究工作。E-mail:gzfcw@163.com.基金项目:贵州省科技支撑计划资助项目(黔科合支撑[2018]2338)。收稿日期:2021-11-30