Carbonate Minerals for Soil Amelioration and Their Application in Bamboo Forest Cultivation
-
摘要: 由于白云石(碳酸钙镁)、石灰石(碳酸钙)矿物的元素组成、结构、表面反应性和环境友好性,近年来出现较多研究将其用于土壤调理、土壤固碳、竹林培育等方面。笔者综述了白云石、石灰石等碳酸盐类矿物及其加工后产品如生石灰、熟石灰在改良土壤、促进土壤固碳和优化竹林培育等方面的应用研究进展。白云石与酸化土壤中的氢离子(H+)的作用可以改良土壤酸化;白云石及其煅烧后产物中钙、镁成分在土壤中能作为植物的养分;白云石与土壤中有机物质作用,促进土壤有机质的转化,增加有机质含量促进土壤固碳;白云石可降低土壤中H+浓度以避免H+与重金属离子(如Cd2+、Pb2+、Cr2+等)产生交换吸附作用,缓解土壤重金属污染;白云石作为土壤调理剂可丰富土壤中的钙元素及微量元素,促进竹子生长。碳酸钙添加到化肥中有利于竹蔸、大樱桃(Prunus pseudocerasus)、苹果树(Malus pumila)等植株的生长,还能控制土壤重金属的价态变化;白云石煅烧后产物熟石灰可以与土壤中的H+结合生成弱酸性的盐,降低竹林土壤中交换性酸(H+)含量;并且Ca(OH)2能使Cd2+、Pb2+等重金属离子沉淀,缓解有效态重金属元素对土壤的污染。最后分析了白云石、石灰石矿物研究和用于土壤调理、土壤固碳、竹林培育等方面的不足,讨论了今后碳酸盐类矿物及其加工产物用于土壤调理、土壤固碳、竹林培育等重点要解决的问题和应用技术开发方向。Abstract: Due to the elemental composition,structure,surface reactivity and environmental friendliness of dolomite (calcium carbonate magnesium) and limestone (calcium carbonate) minerals,there have been many studies in recent years to use them in soil conditioning,soil carbon sequestration,bamboo forest cultivation and so on. This paper reviews the application of carbonate minerals such as dolomite and limestone as well as their processed products such as quicklime and slaked lime in improving soil,promoting soil carbon sequestration and optimizing bamboo forest cultivation. The interaction of dolomite with hydrogen ions (H+) in acidified soil was used to improve soil acidification. Calcium and magnesium in dolomite and its calcined products was used as plant nutrients in soil. Dolomite interacts with organic matter in soil to promote the transformation of soil organic matter and increase the content of organic matter to promote soil carbon sequestration. Dolomite reduces the concentration of H+ in soil to avoid exchange and adsorption between H+ and heavy metal ions (such as Cd2+,Pb2+,Cr2+,etc.),and alleviates heavy metal pollution in soil. Dolomite, as a soil conditioner, enriches the calcium and traces elements in the soil and promotes the growth of bamboo. Adding calcium carbonate to fertilizer is beneficial to the growth of bamboo stump,Prunus pseudocerasus, Malus pumila,etc.,and the better control of soil heavy metals valence. Meanwhile,the hydrated lime produced by calcination of dolomite combine with H+ in soil to form weakly acidic salt and reduce the content of exchangeable acid (H+) in bamboo soil. In addition,Ca(OH)2 precipitates metal ions such as Cd2+ and Pb2+,and alleviates the pollution of soil by effective heavy metal elements. Finally,the deficiencies in the research of dolomite and limestone minerals and application in soil conditioning,soil carbon sequestration and bamboo forest cultivation were analyzed,and the key problems and application technology development directions of carbonate minerals and processed products for soil conditioning,soil carbon sequestration and bamboo forestry cultivation in the future were discussed.
-
Key words:
- Dolomite /
- Calcium carbonate /
- Quick lime /
- Soil amelioration /
- Soil carbon sequestration /
- Bamboo forest cultivation
-
敖俊华,黄振瑞,江永,等. 石灰施用对酸性土壤养分状况和甘蔗生长的影响[J]. 中国农学通报,2010,26(15):266 - 269. 曹云梦,吴婧. “双碳”目标下我国海洋碳汇交易的发展机制研究[J]. 中国环境管理,2022,14(4):44 - 51. 陈金玉,潘宏成,闰永奇,等. 一种大樱桃专用肥料及其制备方法和应用:中国,ZL201410255568.8 [P]. 2016-10-05. 陈静,刘荣辉,陈岩贽,等. 重金属污染对土壤微生物生态的影响[J]. 生命科学,2018,30(6):667 - 672. 陈贤树,曲生华,张琼琼,等. 利用选铁尾矿及铁矿副产品制备土壤调理剂关键技术及应用研究[J]. 新型建筑材料,2021,48(2):106 - 109. 程琨,潘根兴. “千分之四全球土壤增碳计划”对中国的挑战与应对策略[J]. 气候变化研究进展,2016,12(5):457 - 464. 杜丽芬. 土壤酸化及防治措施[J]. 现代农业,2018(4):45. 方书起,王毓谦,李攀,等. 生物油催化重整制氢研究进展[J]. 化工进展,2022,41(3):1330 - 1339. 顾小平,吴晓丽. 竹蔸促腐剂:中国,ZL200210019437.7 [P]. 2005-11-16. 胡天睿,蔡泽江,王伯仁,等. 长期不同施肥下红壤酸碱缓冲性能变化[J]. 中国土壤与肥料,2022(6):48 -54. 黄齐真,石林,何柳青. 粉煤灰的农业高效资源化研究与应用[J]. 非金属矿,2021,44(4):12 - 14. 江家全,周亮,张晓龙,等. 煅烧对白云石治酸效果及其钙镁释放动力学特性的影响[J]. 农业工程学报,2020,36(9):235 - 244. 李旸. 我国低碳经济发展路径选择和政策建议[J]. 城市发展研究,2010,17(2):56 - 67,72. 林大松,徐应明,孙国红,等. 土壤pH、有机质和含水氧化物对镉、铅竞争吸附的影响[J]. 农业环境科学学报,2007,26(2):510 - 515. 刘高政,唐兴春. 浅谈玉米缺素症状辨别及防治[J]. 农业技术与装备,2020(6):143 - 145,147. 刘军,冯秀智,史磊,等. 生石灰用量对早竹林土壤酸碱度及有效态重金属含量的影响[J]. 浙江林业科技,2017,37(2):55 - 59. 刘军,沈强勇,金锦,等. 持续施用生石灰对早竹笋品质及竹材力学性质的影响[J]. 竹子学报,2019,38(1):40 - 45. 刘芷宇. 植物根系吸收土壤中离子的途径[J]. 土壤学报,1964,12(2):235 - 242. 牛永红,韩枫涛,张雪峰,等. 白云石催化松木燃料棒水蒸气气化试验[J]. 农业机械学报,2016,47(12):246 - 252. 饶霜. 一种防治黄瓜真菌病害的液体微生物肥料及其制备方法:中国,201710722619.7 [P]. 2017-11-17. 任露陆,吴文成,陈显斌,等. 碳酸钙与氢氧化钙修复重金属污染土壤效果差异研究[J]. 环境科学与技术,2016,39(5):22 - 27. 斯伟明,刘军,廖望仪. 余杭乡土笋用竹种品比试验[J]. 浙江农业科学,2021,62(8):1542 - 1544. 唐仲,周明,张隽,等. 生物炭和碳酸钙粉对高、低镉积累型水稻镉积累及根际微生物群落的影响[J]. 农业环境科学学报,2022,41(10):2102 - 2110. 童文彬,江建锋,杨海峻,等. 南方典型酸化土壤改良与水稻安全种植同步应用技术[J]. 浙江农业科学,2022,63(6):1154 - 1156. 万水霞,李帆,王静,等. Cd污染土壤生物毒性的发光菌法测定及评价[J]. 安徽农业科学,2022,50(8):57 - 60. 王鹏飞,田滔,张应华,等. 复配改良剂对设施酸化土壤及团聚体的影响[J]. 环境科学与技术,2021,44(12):167 - 176. 王维,刘凯洋,王英杰,等. 树干涂白剂:中国,202010896759.8 [P]. 2020-11-20. 王文军,郭熙盛,武际,等. 白云石粉对皖南酸性红黄壤磷组分及磷有效性的影响[J]. 土壤,2006,38(4):448 - 452. 王文伟. 石粉对碱激发矿渣体系性能的影响研究[D]. 广州:广州大学,2023. 王宇豪,杨力,康愉晨,等. 镉污染大田条件下不同品种水稻镉积累的特征及影响因素[J]. 环境科学,2021,42(11):5545 - 5553. 王志坚,王崇华,杨爱华,等. 三种钙素肥料对大蒜病害的防治效果[J]. 中国瓜菜,2016,29(7):33 - 35. 文星,吴海勇,刘琼峰,等. 农业生产中防治土壤酸化的研究进展[J]. 湖南农业科学,2012(9):64 - 67. 吴安,唐彪,徐浩然,等. 垃圾焚烧过程中氧化物对Cd和Zn迁移分布的影响[J]. 化工环保,2021,41(6):737 - 744. 吴辰晨,吴健平,傅庆林. 土壤调理剂对雷笋产量及土壤理化性状的影响[J]. 浙江农业科学,2022,63(8):1758 - 1760. 吴宏涛,胡金丽,徐鹏,等. 不同水分条件下添加白云石对酸性水稻土有机碳矿化的影响[J]. 农业工程学报,2021,37(1):148 - 157. 吴来佩. 一种苹果树专用肥料及其制备方法和应用:中国,ZL201410321397.4 [P]. 2016-08-24. 吴秋生,梁世栋,李小燕,等. 钾长石高温分解制备硅钙钾镁肥工艺优化研究[J]. 非金属矿,2019,42(5):24 - 27. 武际,郭熙盛,王文军,等. 施用白云石粉对黄红壤酸度和油菜产量的影响[J]. 中国油料作物学报,2006,28(1):55 - 58. 熊毅. 土壤胶体的组成及复合[J]. 土壤通报,1979(5):1 - 8,28. 严锦申. 生石灰施用量对酸性土壤改良效果及对烤烟产质量的影响[D]. 广州:华南农业大学,2016. 杨文俪. 福建省安溪县茶园土壤酸化速率与改良技术[J]. 茶叶学报,2021,62(2):89 - 93. 杨育文,陈秋会,席运官,等. 不同施肥模式对酸性土壤镉、铜有效态含量及在结球生菜中累积的影响[J]. 云南农业大学学报(自然科学),2022,37(2):344 - 350. 于志浩,金晶,张瑞璞,等. 白云石添加剂对稻秆灰熔融特性及固钾能力的影响[J]. 燃料化学学报,2020,48(7):795 - 803. 余跑兰,孙永明,李小飞,等. 施用白云石粉对茶园土壤酸化及茶叶品质与产量的影响[J]. 茶叶通讯,2020,47(1):46 - 51. 曾敏. CaCO3对土壤Cd污染及Cd与酸雨复合污染的治理研究[D]. 长沙:湖南农业大学,2004. 曾昭霞,刘孝利,曾馥平,等. 灌溉水净化耦合稻田土壤阻控措施对稻米Cd的累积减低效果[J]. 生态学杂志,2022,41(3):495 - 502. 詹立峰,何跃兴,叶想青. 白云石粉不同施用量对烤烟产量与质量的影响[J]. 现代农业科技,2009(11):145 - 147. 张弛. 镁肥的功效与施用[J]. 中国农资,2012(47):21. 张东军. 一种防治玫瑰花病害的复合肥:中国,201710550618.9 [P]. 2017-10-24. 张兰,黑儿平,武娟,等. 镉污染稻田土壤调理剂效果研究[J]. 农业研究与应用,2021,34(1):47 - 52. 赵启华. 一种含有改性水溶性纳米级硅溶胶的桑树肥料及其制备方法:中国,ZL201210452364.4 [P]. 2014-02-12. 赵永芹. 不同钝化剂对石灰性土壤重金属形态转化和植物吸收的影响[D]. 郑州,河南农业大学,2019. 郑金土,张同心,樊树雷,等. 一种杨梅增色增糖用肥料及其施肥方法:中国,ZL201510254858.5 [P]. 2017-12-12. 钟菊文. 白云石镁肥的加工与应用推广[J]. 江西农业,2017(9):40. 钟雄发,刘雄明. 白云石粉在仙草栽培应用效果初探[J]. 农业与技术,2015,35(3):46,55. 钟雄发. 三华李酸性土壤果园施用白云石粉效果探究[J]. 乡村科技,2022,13(4):61 - 63. 周江敏,陈华林,代静玉. 溶解性有机质在土壤固碳中的意义[J]. 土壤通报,2011,42(6):1508 - 1514. 朱昌实,王笑,张兆康. 大棚宁波藤茄再生栽培技术[J]. 新农村,2021(7):27 - 28. 朱飞武,高贵龙,廖吉星,等. 一种制备磷酸铵副产桑树专用肥的生产方法:中国,ZL201410477785.1 [P]. 2016-08-17. 庄舜尧,季海宝,程琳,等. 施用石灰对雷竹林土壤氮磷流失的影响[J]. 浙江林业科技,2014,34(6):68 -71. Fageria N K,Baligar V C. Enhancing Nitrogen Use Efficiency in Crop Plants [J]. Advances in Agronomy,2005,88:97 - 185. Guo J H,Liu X J,Zhang Y,et al. Significant Acidification in Major Chinese Croplands [J]. Science,2010,327(5968):1008 - 1010. Haling R E,Simpson R J,Delhaize E,et al. Effect of lime on root growth,morphology and the rhizosheath of cereal seedlings growing in an acid soil [J]. Plant and Soil,2010,327(1 - 2):199 - 212. Olszak-Humienik M,Jablonski M. Thermal behavior of natural dolomite [J]. Journal of Thermal Analysis and Calorimetry,2015,119(3):2239 - 2248. Qin C Z,Hassanizadeh S M. Pore-scale modeling of microbially induced calcium carbonate precipitation (MICP): Insight into scale dependence of biogeochemical reaction rates [C]. Fall Meeting,Abstract. Florida:American Geophysical Union,2016. Shaaban M,Peng Q,Lin S,et al. Nitrous oxide emission from two acidic soils as affected by dolomite application [J]. Soil Research,2014,52(8):841 - 848. Song M Z,Ju T Y,Meng Y,et al. A review on the applications of microbially induced calcium carbonate precipitation in solid waste treatment and soil remediation [J]. Chemosphere,2022,290:133229. Vrînceanu N O,Motelicǎ D M,Dumitru M,et al. Assessment of using bentonite,dolomite,natural zeolite and manure for the immobilization of heavy metals in a contaminated soil:the Copşa Micǎ case study (Romania) [J]. Catena,2019,176:336 - 342. Wang L,Hustad J E,Skreiberg Ø,et al. A Critical Review on Additives to Reduce Ash Related Operation Problems in Biomass Combustion Applications [J]. Energy Procedia,2012,20:20 - 29. Wang P,Chen L,Shen Y F. Recycling spent ternary lithium-ion batteries for modification of dolomite used in catalytic biomass pyrolysis – A preliminary study by thermogravimetric and pyrolysis-gas chromatography/mass spectrometry analysis [J]. Bioresource Technology,2021,337:125476. Wang Y G,Liu Y,Yang W J,et al. Evaluation of combustion properties and pollutant emission characteristics of blends of sewage sludge and biomass [J]. Science of The Total Environment,2020,720:137365.
点击查看大图
计量
- 文章访问数: 95
- HTML全文浏览量: 10
- PDF下载量: 82
- 被引次数: 0