Advanced search
Publication Cover
New Zealand Journal of Agricultural Research Latest Articles
Submit an article Journal homepage
0
Views
0
CrossRef citations to date
0
Altmetric
Research Article

Changes to soil profile carbon and nutrient distribution following pasture renewal with full inversion tillage

Yahaya Jebril AmanorEnvironmental Sciences Group, School of Agriculture and Environment, Massey University, Palmerston North, New ZealandCorrespondence[email protected] [email protected]
ORCID Iconhttps://orcid.org/0000-0001-7678-9800View further author information
ORCID Icon,
James A. HanlyEnvironmental Sciences Group, School of Agriculture and Environment, Massey University, Palmerston North, New ZealandView further author information
,
Roberto Calvelo-PereiraEnvironmental Sciences Group, School of Agriculture and Environment, Massey University, Palmerston North, New ZealandORCID Iconhttps://orcid.org/0000-0002-0859-1509View further author information
ORCID Icon &
Michael J. HedleyEnvironmental Sciences Group, School of Agriculture and Environment, Massey University, Palmerston North, New ZealandView further author information
Received 01 Sep 2023, Accepted 13 Jun 2024, Published online: 18 Jul 2024

References

  • Alcántara V, Don A, Vesterdal L, Well R, Nieder R. 2017. Stability of buried carbon in deep-ploughed forest and cropland soils-implications for carbon stocks. Scientific reports. 7:5511–5511.
  • Alcántara V, Don A, Well R, Nieder R. 2016. Deep ploughing increases agricultural soil organic matter stocks. Global change biology. 22:2939–2956.
  • Bai Y, Cotrufo MF. 2022. Grassland soil carbon sequestration: current understanding, challenges, and solutions. Science. 377:603–608. doi:10.1126/science.abo2380.
  • Basile-Doelsch I, Balesdent J, Pellerin S. 2020. Reviews and syntheses: the mechanisms underlying carbon storage in soil. Biogeosciences (online). 17:5223–5242.
  • Beare MH, McNally SR, Tregurtha C, Gillespie R, van der Klei G, Calvelo- Pereira R, Hedley MJ. 2020. The agronomic and environmental benefits and risks of autumn pasture renewal with full inversion tillage. In: CL Christensen, D Horne, R Singh, editors. ‘Nutrient management in farmed landscapes. Palmerston North, New Zealand’, 2020. Palmerston North, New Zealand: Farmed Landscapes Research Centre, Massey University; p. 6.
  • Bertrand I, Viaud V, Daufresne T, Pellerin S, Recous S. 2019. Stoichiometry constraints challenge the potential of agroecological practices for the soil C storage. A review. Agronomy for Sustainable Development. 39:54.
  • Blakemore LC, Searle PL, Daly BK. 1987. Methods for chemical analysis of soils. Lower Hutt, New Zealand: NZ Soil Bureau, Department of Scientific and Industrial Research.
  • Bolan NS, Hedley MJ. 1998. Developments in some aspects of reactive phosphate rock research and use in New Zealand. Australian Journal of Experimental Agriculture. 37:861–884.
  • Bolan NS, Hedley MJ, White RE. 1991. Processes of soil acidification during nitrogen cycling with emphasis on legume based pastures. Plant and soil. 134:53–63.
  • Calvelo-Pereira R, Hedley MJ, Arbestain MC, Bishop P, Enongene KE, Otene IJJ. 2018. Evidence for soil carbon enhancement through deeper mouldboard ploughing at pasture renovation on a Typic Fragiaqualf. Soil Research. 56:182–191.
  • Calvelo- Pereira R, Hedley MJ, Hanly J, Hedges M, Bretherton M, Beare MH, McNally SR. 2019. Full inversion tillage pasture renewal offers greenhouse gas mitigation options: the Manawatu experience. In: LD Currie, CL Christensen, editors. ‘Nutrient Loss Mitigations for Compliance in Agriculture. Palmerston North, New Zealand’, 2019. Palmerston North, New Zealand: Fertilizer and Lime Research Centre, Massey University; p. 11–11.
  • Calvelo-Pereira R, Hedley MJ, Hanly JA, Beare MH, McNally SR, Bretherton MR. 2022. Spring pasture renewal involving full inversion tillage and a summer crop can facilitate soil C storage, improve crop yields and lower N leaching. Soil and Tillage Research. 219:105347–105347.
  • Cayley JWD, McCaskill MR, Kearney GA. 2002. Available phosphorus, sulfur, potassium, and other cations in a long-term grazing experiment in south-western Victoria. Australian Journal of Agricultural Research. 53:1349–1360.
  • Crush JR, Waller JE, Care DA. 2005. Root distribution and nitrate interception in eleven temperate forage grasses. Grass and Forage Science. 60:385–392.
  • Curtin D, Campbell CA, Messer D. 1996. Prediction of titratable acidity and soil sensitivity to pH change. Journal of environmental quality. 25:1280–1284.
  • Curtin D, Fraser PM, Beare MH. 2015. Loss of soil organic matter following cultivation of long-term pasture: effects on major exchangeable cations and cation exchange capacity. Soil Research. 53:377–385.
  • Curtin D, Rostad HPW. 1997. Cation exchange and buffer potential of Saskatchewan soils estimated from texture, organic matter and pH. Canadian Journal of Soil Science. 77:621–626.
  • Curtin D, Syers JK. 2001. Lime-induced changes in indices of soil phosphate availability. Soil Science Society of America Journal. 65:147–152.
  • Curtin D, Trolove S. 2013. Predicting pH buffering capacity of New Zealand soils from organic matter content and mineral characteristics. Soil Research. 51:494–502.
  • Dodd MB, Chapman DF, Ogle G. 2018. Regrassing trends and drivers in the New Zealand dairy industry. Journal of New Zealand Grasslands. 80:177–184.
  • Edmeades DC, Metherell AK, Waller JE, Roberts AHC, Morton JD. 2006. Defining the relationships between pasture production and soil P and the development of a dynamic P model for New Zealand pastures: a review of recent developments. New Zealand Journal of Agricultural Research. 49(2):207–222.
  • Ellert BH, Bettany JR. 1995. Calculation of organic matter and nutrients stored in soils under contrasting management regimes. Canadian Journal of Soil Science. 75:529–538.
  • Hedley CB, Kusumo BH, Hedley MJ, Tuohy MP, Hawke M. 2009. Soil C and N sequestration and fertility development under land recently converted from plantation forest to pastoral farming. New Zealand Journal of Agricultural Research. 52:443–453.
  • Helling CS, Chesters G, Corey RB. 1964. Contribution of organic matter and clay to soil cation-exchange capacity as affected by the pH of the saturating solution. Soil Science Society of America Journal. 28:517–520.
  • IPCC. 2014. Sythnesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. In: RK Pachauri, LA Meyer, editors. Climate Change 2014. Geneva, Switzerland: IPCC; p. 151.
  • Kirschbaum MUF, Don A, Beare MH, Hedley MJ, Pereira RC, Curtin D, McNally SR, EJ L-S. 2021. Sequestration of soil carbon by burying it deeper within the profile: a theoretical exploration of three possible mechanisms. Soil Biology and Biochemistry. 163:108432.
  • Lawrence-Smith EJ, Curtin D, Beare MH, McNally SR, Kelliher FM, Calvelo-Pereira R, Hedley MJ. 2021. Full inversion tillage during pasture renewal to increase soil carbon storage: New Zealand as a case study. Global change biology. 27:1998–2010.
  • Loganathan P, Bretherton MR, Hedley MJ. 2007. Effect of soil cultivation and winter pugging on fluorine distribution in soil profiles under pasture following long-term applications of phosphate fertilisers. Soil Research. 45:41–47.
  • Loganathan P, Hedley MJ. 1997. Downward movement of cadmium and phosphorus from phosphatic fertilisers in a pasture soil in New Zealand. Environmental Pollution. 95:319–324.
  • Loganathan P, Hedley MJ, Wallace GC, Roberts AHC. 2001. Fluoride accumulation in pasture forages and soils following long-term applications of phosphorus fertilisers. Environmental Pollution. 115:275–282.
  • Madigan AP, Zimmermann J, Krol DJ, Williams M, Jones MB. 2022. Full Inversion Tillage (FIT) during pasture renewal as a potential management strategy for enhanced carbon sequestration and storage in Irish grassland soils. Science of the Total Environment. 805:150342.
  • McDowell RW, Condron LM. 2004. Estimating phosphorus loss from New Zealand grassland soils New Zealand. Journal of Agricultural Research. 47:137–145.
  • McDowell RW, Smith LC. 2023. The longevity of cultivation in decreasing the potential for phosphorus loss in runoff. Soil and Tillage Research. 227:105618.
  • McNally SR, van der Klei G, Calvelo- Pereira R, Thomas S, Beare MH, Hedley MJ. 2020. Nitrous oxide emissions from fertiliser and urine following full inversion tillage autumn pasture renewal. In: CL Christensen, DJ Horne, R Singh, editors. Nutrient management in farmed landscapes. Palmerston North, New Zealand, 2020. Palmerston North, New Zealand: Farmed Landscapes Research Centre, Massey University; p. 7–7.
  • Milligan G, Scott R, Young D, Connor L, Blackbird S, Marrs R. 2017. Reducing soil fertility to enable ecological restoration: a new method to test the efficacy of Full-Inversion Tillage. Ecological Engineering. 98:257–263.
  • Monaghan RM, Hedley MJ, Di HJ, McDowell RW, Cameron KC, Ledgard SF. 2007. Nutrient management in New Zealand pastures – recent developments and future issues. New Zealand Journal of Agricultural Research. 50:181–201.
  • Morton JD, Roberts AHC. 2016. Fertiliser use on New Zealand sheep and beef farms. Wellington, New Zealand: New Zealand Fertiliser Manufacturers’ Research Association.
  • Morton JD, Stafford AD, Roberts AHC. 2020. Fertilizer use on New Zealand forage crops. Wellington, New Zealand: New Zealand Fertiliser Manufacturers’ Research Association.
  • National Institute of Water and Atmospheric Research. 2024. Climate data and activities – Climate summaries. NIWA, New Zealand [accessed 31 January 2024]. https://niwa.co.nz/education-and-training/schools/resources/climate.
  • Parfitt RL, Giltrap DJ, Whitton JS. 1995. Contribution of organic matter and clay minerals to the cation exchange capacity of soils. Communications in soil science and plant analysis. 26:1343–1355.
  • Peng Y, Hanly JA, Jeyakumar P, Calvelo-Pereira R. 2023. Effects of full inversion tillage during pasture renewal on soil and plant cadmium concentrations: a case study in New Zealand. Soil Research. 61(4):410–420.
  • Percival HJ, Parfitt RL, Scott NA. 2000. Factors controlling soil carbon levels in New Zealand grasslands: is clay content important? Soil Science Society of America Journal. 64:1623–1630.
  • Roberts AHC, Morton JD. 2016. Fertiliser use on New Zealand dairy farms. Wellington, New Zealand: New Zealand Fertiliser Manufacturers’ Research Association.
  • Rumpel C, Amiraslani F, Chenu C, Cardenas MG, Kaonga M, Koutika L-S, Ladha J, Madari B, Shirato Y, Smith P. 2019. The 4p1000 initiative: opportunities, limitations and challenges for implementing soil organic carbon sequestration as a sustainable development strategy. Ambio. 49:350–360.
  • Rutledge S, Mudge PL, Wallace DF, Campbell DI, Woodward SL, Wall AM, Schipper LA. 2014. CO2 emissions following cultivation of a temperate permanent pasture. Agriculture, Ecosystems & Environment. 184:21–33.
  • Salazar M, Hedley M, Horne D. 2010. Using turnips to reduce soil K loading on the effluent block. Lincoln, New Zealand: Proceedings of the New Zealand Grassland Association.
  • Schiedung M, Tregurtha CS, Beare MH, Thomas SM, Don A. 2019. Deep soil flipping increases carbon stocks of New Zealand grasslands. Global Change Biology. 25:2296–2309.
  • Schipper LA, Mudge PL, Kirschbaum MUF, Hedley CB, Golubiewski NE, Smaill SJ, Kelliher FM. 2017. A review of soil carbon change in grazed New Zealand pastures. New Zealand Journal of Agricultural Research. 60:93–118.
  • Schofield PE, Gregg PEH, Syers JK. 1981. ‘Biosuper’ as a phosphate fertiliser: a glasshouse evaluation. New Zealand Journal of Experimental Agriculture. 9:63–67.
  • Schollenberger CJ, Simon RH. 1945. Determination of exchange capacity and exchangeable bases in soil – ammonium acetate method. Soil Science. 59(1):13–24.
  • Soil Survey Staff. 2014. Keys to soil taxonomy. Washington, D.C.: USDA, Natural Resources Conservation Service.
  • Soussana J-F, Lutfalla S, Ehrhardt F, Rosenstock T, Lamanna C, Havlík P, Richards M, Chotte J-L, Torquebiau E, Ciais P. 2019. Matching policy and science: rationale for the ‘4 per 1000-soils for food security and climate’ initiative. Soil and Tillage Research. 188:3–15.
  • Stafford AD, Kusumo BH, Jeyakumar P, Hedley MJ, Anderson CWN. 2018. Cadmium in soils under pasture predicted by soil spectral reflectance on two dairy farms in New Zealand. Geoderma Regional. 13:26–34.
  • Wendt J, Hauser S. 2013. An equivalent soil mass procedure for monitoring soil organic carbon in multiple soil layers. European Journal of Soil Science. 64(1):58–65.
  • Zhang J, Hanly JA, Hedley MJ. 2009. Effect of pasture cultivation on soil phosphorus stratification and impacts on subsequent fertilizer requirements, LD Currie, CL Lindsay, editors. Palmerston North, New Zealand: Fertilizer and Lime Research Centre, Massey University; p. 105–109.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.