Can the application of rare earth elements improve yield and decrease the uptake of cadmium in ryegrass-dominated pastures?
R. W. McDowell A B D , W. Catto C and T. Orchiston A
+ Author Affiliations
- Author Affiliations
A AgResearch, Invermay Agricultural Centre, Private Bag 50034 Mosgiel, New Zealand.
B Faculty of Agriculture and Life Sciences, Lincoln University. Lincoln 7647, New Zealand.
C Ballance Agri-Nutrients, Private Bag 12503, Tauranga, New Zealand.
D Corresponding author. Email: richard.mcdowell@agresearch.co.nz
Soil Research 53(7) 826-834 https://doi.org/10.1071/SR15073
Submitted: 9 March 2015 Accepted: 14 May 2015 Published: 27 October 2015
Abstract
Rare earth elements (REEs) have been linked to increases and decreases in plant growth and the uptake of biotoxic metals such as Cadmium (Cd). We hypothesised that under the right soil and climatic conditions the application REEs to soil may improve yield of ryegrass-dominated pasture and inhibit Cd uptake in foliage. A soil survey measuring REEs concentrations in soils from across New Zealand showed that REEs were enriched in Volcanic compared with Sedimentary-derived soils, and in soils used for dairying compared with those used for sheep and beef. From a range of REEs applied to ryegrass with and without N, lanthanum (La) showed minor yield improvement under glasshouse conditions, but only for Sedimentary (not Volcanic) soils low in REE concentration and at 40% available soil moisture or less. A similarly mixed yield response occurred in a field trial. Decreases in the Cd concentration of ryegrass (mg kg–1) only occurred in the harvests after application (40% at 20 kg La ha–1 for one soil) and did not translate into an annual effect. We conclude that there was insufficient evidence to recommend the use of La (screened from a range of REEs as the most promising) to increase annual dry matter yield or decrease Cd uptake from ryegrass-dominated pastures.
Additional keywords: cerium, field, glasshouse, lanthanum, nitrogen.
References
Arafura Resources (2013) Arafura Resources, Rare Earth Elements – Pricing. Available at: www.arafuraresources.com.au/rare-earths/pricing (accessed Sept. 2015).Blakemore LC, Searle PL, Daly BK (1987) ‘Methods for chemical analysis of soils.’ p.103. New Zealand Soil Bureau Scientific Report 80. (NZSB: Wellington, New Zealand)
Bloom AJ, Finazzo J (1986) The influence of ammonium and chloride on potassium and nitrate absorption by barley roots depends on time of exposure and cultivar. Plant Physiology 81, 67–69.
| The influence of ammonium and chloride on potassium and nitrate absorption by barley roots depends on time of exposure and cultivar.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaL28XktVGks7w%3D&md5=90e38c5a3cdded1de834aa8c9d8aee05CAS | 16664809PubMed |
Boger M, Van Erp YHM, Eichner P (1997) Assessment of the potential toxicity of lanthanum for aquatic organisms. In ‘Proceedings of the 2nd Sino–Dutch Workshop on the Environmental Behavior and Ecotoxicology of Rare Earth Elements and Heavy Metals’. (Eds R Guicherit, W Zhu) pp. 14–18. (TNO Publication: La Delft, the Netherlands)
Brioschi L, Steinmann M, Lucot E, Pierret MC, Stille P, Prunier J, Badot PM (2013) Transfer of rare earth elements REE from natural soil to plant systems, implications for the environmental availability of anthropogenic REE. Plant and Soil 366, 143–163.
| Transfer of rare earth elements REE from natural soil to plant systems, implications for the environmental availability of anthropogenic REE.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXmtlGitbg%3D&md5=1867bba24b4755392bdb71c8beaaedd3CAS |
Buckingham S, Maheswaran J, Meehan B, Peverill K (1999) The role of applications of rare earth elements in enhancement of crop and pasture production. Materials Science Forum 315–317, 339–347.
| The role of applications of rare earth elements in enhancement of crop and pasture production.Crossref | GoogleScholarGoogle Scholar |
Cadmium Working Group (2011) Cadmium and New Zealand agriculture and horticulture: A strategy for long term risk management. A report prepared by the Cadmium Working Group for the Chief Executives Environmental Forum. Available at: http://gdsindexnz.org/wp-content/uploads/2015/02/GDS031.-Cadmium-and-New-Zealand-Agriculture-and-Horticulture-a-Strategy-for-Long-Term-Risk-Management-2011.pdf (accessed 24 August 2015).
Drewry JJ, Littlejohn RP, Paton RJ (2000) A survey of soil physical properties on sheep and dairy farms in southern New Zealand. New Zealand Journal of Agricultural Research 43, 251–258.
| A survey of soil physical properties on sheep and dairy farms in southern New Zealand.Crossref | GoogleScholarGoogle Scholar |
Edmeades DC, Morton JD, Waller J, Metherell AK, Roberts AHC, Carey PJ (2010) The diagnosis and correction of potassium deficiency in New Zealand pastures: a review. New Zealand Journal of Agricultural Research 53, 151–173.
| The diagnosis and correction of potassium deficiency in New Zealand pastures: a review.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXotl2is7g%3D&md5=1089a8da99eec5fb49461d86689a6ec7CAS |
Fierer N, Schimel JP (2002) Effects of drying-rewetting frequency on soil carbon and nitrogen transformations. Soil Biology & Biochemistry 34, 777–787.
| Effects of drying-rewetting frequency on soil carbon and nitrogen transformations.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD38XjvVarsrc%3D&md5=1117ce9ceee70b0456a1abe701e3b3dcCAS |
Grewal KS, Buchan GD, Tonkin PJ (1990) Estimation of field capacity and wilting point of some New Zealand soils from their saturation percentages. New Zealand Journal of Agricultural Research 18, 241–246.
Guo BS (1993) The application of rare earth elements on agriculture and breeding. Journal of the Chinese Rare Earths Society 15, 37–43.
Guo BS, Zhu WM, Xiong PK, Ji YJ, Liu Z, Wu ZM (1988) ‘Rare earths in agriculture.’ pp. 23–208. (Agricultural Scientific Technological Press: Beijing, China) [in Chinese]
Hu Z, Haneklaus S, Sparovek G, Schung E (2006) Rare earth elements in soils. Communications in Soil Science and Plant Analysis 37, 1381–1420.
| Rare earth elements in soils.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28XltF2jsbc%3D&md5=983e843073034850816bf5ed4c50bb13CAS |
Hurst C (2010) China’s rare earth elements industry, what can the west learn? Institute for the Analysis of Global Security. Available at: http://americanresources.org/wp-content/uploads/2011/09/rareearth.pdf (accessed Sept 2015).
Kalra YP, Maynard DG, Radford FG (1989) Microwave digestion of tree foliage for multi-element analysis. Canadian Journal of Forest Research 19, 981–985.
| Microwave digestion of tree foliage for multi-element analysis.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK3cXjvVei&md5=58be312d25f9ba2b1b9ec781fd30c109CAS |
Landberg T, Greger M (2003) Influence of N and N supplementation on Cd accumulation in wheat grain. In ‘Proceedings of 7th International Conference on the Biogeochemistry of Trace Elements 1, III’. Uppsala, Sweden. pp. 90–91.
Li X, Ziadi N, Belanger G, Cai Z, Xu H (2011) Cadmium accumulation in wheat grain as affected by mineral N fertilizer and soil characteristics. Canadian Journal of Soil Science 91, 521–531.
| Cadmium accumulation in wheat grain as affected by mineral N fertilizer and soil characteristics.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3MXht1Srur7J&md5=cd199ad1e831f5cb58ac533b3b06bd61CAS |
Liang T, Zhang S, Wang L, Kung H–T, Wang Y, Hi A, Ding S (2005) Environmental biogeochemical behaviors of rare earth elements in soil-plant systems. Environmental Geochemistry and Health 27, 301–311.
| Environmental biogeochemical behaviors of rare earth elements in soil-plant systems.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2MXmt1ygtb4%3D&md5=98bf0f4b76911d109985bc9d7101d995CAS | 16027965PubMed |
Liu HZ, Wen LK, Li YD, Rui H (1997) Effects of rare earth on the growth, fruiting and absorption of N, P, K on black currant. Journal of Fruit Science 14, 32–35.
Liu X, Wang J, Yang J, Fan Y, Wu Y, Zhang H (2006) Application of rare earth phosphate fertilizer in western area of China. Journal of Rare Earths 24, 423–426.
| Application of rare earth phosphate fertilizer in western area of China.Crossref | GoogleScholarGoogle Scholar |
McDowell RW, Taylor MD, Stevenson BA (2013) Natural background and anthropogenic contributions of cadmium to New Zealand soils. Agriculture, Ecosystems & Environment 165, 80–87.
| Natural background and anthropogenic contributions of cadmium to New Zealand soils.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXit1Oju70%3D&md5=64b0ccd1fc021ec5b3d00b2106d0c625CAS |
Ning JB, Xiao SL (1989) Effects of rare earth elements application on day lily. Chinese Rare Earths 10, 52–54.
Otero N, Vitòria L, Soler A, Canals A (2005) Fertiliser characterization, major, trace and rare earth elements. Applied Geochemistry 20, 1473–1488.
| Fertiliser characterization, major, trace and rare earth elements.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2MXmvVWmsLg%3D&md5=0eab01619a2dbd49e3c3fabdde22bc8aCAS |
Rambeck WA, Wehr U (2005) Rare earth elements as alternative growth promoters in pig production. Animal Science Database. Available at: www.lanthanoide.de/fileadmin/docs_archiv/Bilder/REE_pig_review.pdf (accessed Sept 2015).
Spalla S, Baffi C, Barbante C, Turetta C, Cozzi G, Beono GM, Bettinelli M (2009) Determination of rare earth elements in tomato plants by inductively coupled plasma mass spectroscopy techniques. Rapid Communications in Mass Spectrometry 23, 3285–3292.
| Determination of rare earth elements in tomato plants by inductively coupled plasma mass spectroscopy techniques.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD1MXhtFGlsbjE&md5=45b6fd1079ff0007ddb5740804ba2eecCAS | 19757452PubMed |
Thomas PJ, Carpenter D, Boutin C, Allison JE (2014) Rare earth elements (REEs): Effects on germination and growth of selected crop and native plant species. Chemosphere 96, 57–66.
| Rare earth elements (REEs): Effects on germination and growth of selected crop and native plant species.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXhtlCgurjF&md5=ed00a582e2bfbb86447e7915b1dfb636CAS | 23978671PubMed |
Tyler G (2004) Rare earth elements in soil and plant systems – a review. Plant and Soil 267, 191–206.
| Rare earth elements in soil and plant systems – a review.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2MXht1Wkurw%3D&md5=e20b739483875f15b46a8bad599e7142CAS |
Wald PH (1990) ‘A review of the literature on the toxicity of rare earth metals as it pertains to the engineering demonstration system surrogate testing.’ pp. 1–27. (Lawrence Berkeley National Laboratory: CA; Dept of Energy: Washington, DC)
Wang Z, Liu D, Lu P, Wang C (2001) Accumulation of rare earth elements in corn after agricultural application. Journal of Environmental Quality 30, 37–45.
| Accumulation of rare earth elements in corn after agricultural application.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXhvFSlsL8%3D&md5=5df4f99a3512f60339eb8c99617d58a2CAS | 11215665PubMed |
Wang J, Liu X, Yang J, Zhang H, Liu Y, Fan Y, Wu Y, Han X (2006) Development and prospect of rare earth functional biomaterials for agriculture in China. Journal of Rare Earths 24, 427–431.
| Development and prospect of rare earth functional biomaterials for agriculture in China.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28XntlWjs7Y%3D&md5=73b6ee0b636059b692a12a96111342fcCAS |
Wångstrand H, Eriksson J, Öborn I (2007) Cadmium concentration in winter wheat as affected by nitrogen fertilization. European Journal of Agronomy 26, 209–214.
| Cadmium concentration in winter wheat as affected by nitrogen fertilization.Crossref | GoogleScholarGoogle Scholar |
Xie ZB, Zhu JG, Chu HY, Zhang YL, Zeng Q, Ma HL, Cao ZH (2002) Effect of lanthanum on rice production, nutrient uptake, and distribution. Journal of Plant Nutrition 25, 2315–2331.
| Effect of lanthanum on rice production, nutrient uptake, and distribution.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD38XnsFKjs7o%3D&md5=13f5ff912ea1c19ede66e75be686f682CAS |
Xiong BK, Cheng P, Guo BS, Zheng W (2000) ‘Rare earth element research and applications in Chinese agriculture and forest.’ (Metallurgical Industry Press: Beijing, China)
Xu X, Wang Z (2007) Phosphorus uptake and translocation in field-grown maize after application of rare earth-containing fertilizer. Journal of Plant Nutrition 30, 557–568.
| Phosphorus uptake and translocation in field-grown maize after application of rare earth-containing fertilizer.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2sXkvFSlu7g%3D&md5=85668926e7868a7dd84d4e431639d399CAS |
Zhang SZ, Shan XQ (1997) The determination of rare earth elements in soil by inductively coupled plasma mass spectrometry. Atomic Spectroscopy 18, 140–144.
Zhang Y, Deng L-B, Ye W-H (2006) Does the long-term application of calcium superphosphate lead to an increase of the soil rare earth element contents? Journal of Environmental Sciences 18, 130–134.
Zhu YY, Chen JJ, Yang JC, Liu XL, Liu LH (1994) Effect of rare earth with high-grade La on the yield, uptake of nitrogen and phosphorus by spring wheat. Acta Agriculturae Nucleatae Sinica 8, 46–50.
Zhu JG, Chu HY, Xie ZB, Yagi K (2002) Effects of lanthanum on nitrification and ammonification in three Chinese soils. Nutrient Cycling in Agroecosystems 63, 309–314.
| Effects of lanthanum on nitrification and ammonification in three Chinese soils.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD38XovVCmurg%3D&md5=50388e8eb1f295c29fd8fdecb42d0235CAS |
