[1] |
DATNOFFT L E, DEREN C W, SNYDER G H, 1997. Silicon fertilization for disease-management of rice in Florida[J]. Crop Protection, 16(6): 525-531.
DOI
URL
|
[2] |
DUAN G L, SHAO G S, TANG Z, et al., 2017. Genotypic and environmental variations in grain cadmium and arsenic concentrations among a panel of high yielding rice cultivars[J]. Rice, 10(1): 9.
DOI
URL
|
[3] |
GALVEZ L, CLARK R B, GOURLEY L M, et al., 1987. Silicon interaction with manganese and aluminum toxicity in sorghums[J]. Journal of Plant Nutrition, 10: 1139-1147.
DOI
URL
|
[4] |
HUSSAIN L A, ZHANG Z, GUO Z, et al., 2017. Potential use of lime combined with additives on (im) mobilization and phytoavailability of heavy metals from Pb/Zn smelter contaminated soils[J]. Ecotoxicology and Environmental Safety, 145: 313-323.
DOI
URL
|
[5] |
WU H, CUI L, ZENG G, et al., 2017. The interactions of composting and biochar and their implications for soil amendment and pollution remediation: A review[J]. Critical Reviews in Biotechnology, 37(6): 754-764.
DOI
URL
|
[6] |
YANG Y J, CHEN J M, HUANG Q, et al., 2017. Can liming reduce cadmium (Cd) accumulation in rice (Oryza sativa) in slightly acidic soils? A contradictory dynamic equilibrium between Cd uptake capacity of roots and Cd immobilisation in soils[J]. Chemosphere, 193: 547-556.
DOI
URL
|
[7] |
YANG Y J, XIONG J, CHEN R J, et al., 2016. Excessive nitrate enhances cadmium (Cd) uptake by up-regulating the expression of OsIRT1 in rice (Oryza sativa)[J]. Environmental & Experimental Botany, 122: 141-149.
|
[8] |
鲍士旦, 1999. 土壤农化分析[M]. 第3版. 北京: 中国农业出版社.
|
|
BAO S D, 1999. Soil Agrochemical Analysis[M]. Third Edition. Beijing: China Agricultural Press.
|
[9] |
程菁靓, 赵龙, 杨彦, 等, 2019. 我国长江中下游水稻产区铅污染分区划分方法研究[J]. 农业环境科学学报, 38(1): 70-78.
|
|
CHENG J L, ZHAO L, YANG Y, et al., 2019. Classification methods for typical lead-contaminated rice production areas of the middle and lower Yangtze River in China[J]. Journal of Agro-Environment Science, 38(1): 70-78.
|
[10] |
代允超, 吕家珑, 曹莹菲, 等, 2014. 石灰和有机质对不同性质镉污染土壤中镉有效性的影响[J]. 农业环境科学学报, 33(3): 514-519.
|
|
DAI Y C, LV J L, CAO Y F, et al., 2014. Effects of Lime and Organic Amendments on Cd Availability in Cd-Contaminated Soils with Different Properties[J]. Journal of Agro-Environment Science, 33(3): 514-519.
|
[11] |
黄秋婵, 韦友欢, 农克良, 等, 2008. 硅对镉胁迫下水稻幼苗营养器官外部形态与镉累积量的影响[J]. 江苏农业科学 (5): 20-23.
|
|
HUANG Q C, WEI Y H, NONG K L, et al., 2008. Effects of silicon on the external morphology of vegetative organs and cadmium accumulation of rice seedlings under cadmium stress[J]. Jiangsu Agricultural Sciences (5): 20-23.
|
[12] |
贺礼, 陈跃进, 2018. 钢渣硅肥对水稻产量及稻田重金属污染治理作用研究进展[J]. 现代农业科技 (9): 232-233.
|
|
HE L, CHEN Y J, 2018. Research progress of slag silicon fertilizer on rice yield and control of heavy metal pollution in paddy field[J]. Modern Agricultural Science and Technology (9): 232-233.
|
[13] |
贾倩, 胡敏, 张洋洋, 等, 2015. 钾硅肥施用对水稻吸收铅、镉的影响[J]. 农业环境科学学报, 34(12): 2245-2251.
|
|
JIA Q, HU M, ZHANG Y Y, et al., 2015. Effects of potassium-silicon fertilizer application on lead and cadmium uptake by rice[J]. Journal of Agro-Environment Science, 34(12): 2245-2251.
|
[14] |
贾倩, 胡敏, 张洋洋, 等, 2017. 硅钙肥对水稻吸收铅、镉的影响研究[J]. 环境科学与技术, 40(6): 24-30.
|
|
JIA Q, HU M, ZHANG Y Y, et al., 2017. Effect of silicon-calcium fertilizer on Pb and Cd absorption by rice in heavy metal polluted farmland[J]. Environmental Science & Technology, 40(6): 24-30.
|
[15] |
李心, 林大松, 刘岩, 等, 2018. 不同土壤调理剂对镉污染水稻田控镉效应研究[J]. 农业环境科学学报, 37(7): 1511-1520.
|
|
LI X, LIN D S, LIU Y, et al., 2018. Effects of different soil conditioners on cadmium control in cadmium-contaminated paddy fields[J]. Journal of Agro-Environment Science, 37(7): 1511-1520.
|
[16] |
秦淑琴, 黄庆辉, 1996. 硅对水稻吸收镉的影响[J]. 塔里木农垦大学学报, 8(2): 17-20.
|
|
QIN S Q, HUANG Q H, 1996. Effect of silicon on the rice absorbed cadmium[J]. Journal of Talimu University of Agricultural Reclamation, 8(2): 17-20.
|
[17] |
汤海涛, 李卫东, 孙玉桃, 等, 2013. 不同叶面肥对轻度重金属污染稻田水稻重金属积累调控效果研究[J]. 湖南农业科学 (1): 40-44.
|
|
TANG H T, LI W D, SUN Y T, et al., 2013. Controlling effects of different foliar fertilizers on heavy metal accumulation in rice plant in mild heavy metal polluted paddy field[J]. Hunan Agricultural Sciences (1): 40-44.
|
[18] |
田发祥, 谢运河, 纪雄辉, 2015. 土壤重金属污染修复剂在镉污染稻田中的应用效果[J]. 湖南农业科学 (2): 95-98.
|
|
TIAN F X, XIE Y H, JI X H, 2015. Application effect of repair agent of heavy metal pollution in cadmium polluted paddy field[J]. Hunan Agricultural Sciences (2): 95-98.
|
[19] |
王世华, 罗群胜, 刘传平, 等, 2007. 叶面施硅对水稻籽实重金属积累的抑制效应[J]. 生态环境, 16(3): 875-878.
|
|
WANG S H, LUO Q S, LIU C P, et al., 2007. Effects of leaf application of nanometer silicon to the accumulation of heavy metals in rice grains[J]. Ecology and Environment, 16(3): 875-878.
|
[20] |
王宇霞, 郝秀珍, 苏玉红, 等, 2016. 不同钝化剂对Cu、Cr和Ni复合污染土壤的修复研究[J]. 土壤, 48(1): 123-130.
|
|
WANG Y X, HAO X Z, SU Y H, et al., 2016. Remediation of Heavy Metal Contaminated Soil with Different Amendments[J]. Soils, 48(1): 123-130.
|
[21] |
武超, 张兆吉, 费宇红, 等, 2016. 天津污灌区水稻土壤汞形态特征及其食品安全评估[J]. 农业工程学报, 32(18): 207-212.
|
|
WU C, ZHANG Z J, FEI Y H, et al., 2016. Characteristics of mercury form in soil-rice system and food security assessment in wastewater-irrigated paddy fields of Tianjin[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 32(18): 207-212.
|
[22] |
杨欣, 陈江华, 张艳玲, 等, 2010. 铅、镉在典型植烟土壤中的形态分布及转化趋势研究[J]. 中国烟草学报, 16(5): 44-49.
|
|
YANG X, CHEN J H, ZHANG Y L, et al., 2010. Effects of aging on the fractionation of Lead and Cadmium in tobacco planting soils[J]. Acta Tabacaria Sinica, 16(5): 44-49.
|