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New Zealand Journal of Agricultural Research Volume 66, 2023 - Issue 1
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Research articles

Can secondary metabolites of plantain reduce N losses from urine patches?

Maria J. RodriguezSchool of Agriculture and Environment, Massey University, Palmerston North, New ZealandCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-5771-4635
ORCID Icon,
Soledad NavarreteSchool of Agriculture and Environment, Massey University, Palmerston North, New Zealand
,
Dave J. HorneSchool of Agriculture and Environment, Massey University, Palmerston North, New Zealand
,
James A. HanlySchool of Agriculture and Environment, Massey University, Palmerston North, New Zealand
,
Peter BishopSchool of Agriculture and Environment, Massey University, Palmerston North, New ZealandORCID Iconhttps://orcid.org/0000-0002-3785-2878
ORCID Icon &
Peter D. KempSchool of Agriculture and Environment, Massey University, Palmerston North, New ZealandORCID Iconhttps://orcid.org/0000-0002-2239-2012
ORCID Icon
Pages 83-100 | Received 21 Jan 2021, Accepted 06 Oct 2021, Published online: 20 Oct 2021

References

  • Al-Mamun M, Abe D, Kofujita H, Tamura Y, Sano H. 2008. Comparison of the bioactive components of the ecotypes and cultivars of plantain (Plantago lanceolata L.) herbs. Animal Science Journal. 79(1):83–88.
  • Bartholomaeus A, Ahokas J. 1995. Inhibition of P-450 by aucubin: is the biological activity of aucubin due to its glutaraldehyde-like aglycone? Toxicology Letters. 80(1):75–83.
  • Blakemore LC. 1987. Methods for chemical analysis of soils. New Zealand Soil Bureau Scientific Report. 80:71–76.
  • Bourgaud F, Gravot A, Milesi S, Gontier E. 2001. Production of plant secondary metabolites: a historical perspective. Plant Science. 161:839–851.
  • Box LA, Judson HG. 2018. The concentration of secondary metabolites in Plantago lanceolata is genotype specific. Journal of New Zealand Grassland. 80:113–118.
  • Cameron KC, Di HJ, Moir JL. 2013. Nitrogen losses from the soil/plant system: a review. Annals of Applied Biology. 162(2):145–173.
  • Carlton AJ, Cameron KC, Di HJ, Edwards GR, Clough TJ. 2018. Nitrate leaching losses are lower from ryegrass/white clover forages containing plantain than from ryegrass/white clover forages under different irrigation. New Zealand Journal of Agricultural Research. doi:10.1080/00288233.2018.1461659.
  • Damtoft S. 1994. Biosynthesis of catalpol. Phytochemistry. 35:1187–1189. doi:10.1016/s0031-9422(00)94819-2.
  • Darrow K, Bowers MD. 1999. Effects of herbivore damage and nutrient level on induction of iridoid glycosides in Plantago lanceolata. Journal of Chemical Ecology. 25(6):1427–1440.
  • Davini E, Javarone C, Trogolo C, Aureli P, Pasolini B. 1986. The quantitative isolation and antimicrobial activity of the aglycone of aucubin. Phytochemistry. 25(10):2420–2422.
  • De Deyn GB, Biere A, van der Putten WH, Wagenaar R, Klironomos JN. 2009. Chemical defense, mycorrhizal colonization and growth responses in Plantago lanceolata L. Oecologia. 160:433–442. doi:10.1007/s00442-009-1312-2.
  • de Klein CAM, Barton L, Sherlock RR, Li Z, Littlejohn RP. 2003. Estimating a nitrous oxide emission factor for animal urine from some New Zealand pastoral soils. Soil Research. 41(3):381–399.
  • de Klein CAM, van der Weerden TJ, Luo J, Cameron KC, Di HJ. 2019. A review of plant options for mitigating nitrous oxide emissions from pasture-based systems. New Zealand Journal of Agricultural Research. doi:10.1080/00288233.2019.1614073.
  • Di HJ, Cameron KC. 2002a. Nitrate leaching in temperate agroecosystems: sources, factors and mitigating strategies. Nutrient Cycling in Agroecosystems. 64(3):237–256.
  • Dietz M, Machill S, Hoffmann HC, Schmidtke K. 2013. Inhibitory effects of Plantago lanceolata L. on soil N mineralization. Plant and Soil. 368(1-2):445–458.
  • Douglas LA, Bremner JM. 1970. Extraction and colorimetric determination of urea in soils. Soil Science Society of America Journal. 34(6):859–862.
  • Gardiner CA, Clough TJ, Cameron KC, Di HJ, Edwards GR, de Klein CAM. 2016. Potential for forage diet manipulation in New Zealand pasture ecosystems to mitigate ruminant urine derived N2O emissions: a review. New Zealand Journal of Agricultural Research. doi:10.1080/00288233.2016.1190386.
  • Gardiner CA, Clough TJ, Cameron KC, Di HJ, Edwards GR, de Klein CAM. 2017. Potential inhibition of urine patch nitrous oxide emissions by Plantago lanceolata and its metabolite aucubin. New Zealand Journal of Agricultural Research. doi:10.1080/00288233.2017.1411953.
  • Gardiner CA, Clough TJ, Cameron KC, Di HJ, Edwards GR. 2019a. Efficacy of aucubin as a nitrification inhibitor assessed in two Canterbury field trials. New Zealand Journal of Agricultural Research. doi:10.1080/00288233.2019.1645704.
  • Gardiner CA, Clough TJ, Cameron KC, Di HJ, Edwards GR. 2019b. Ruminant urine patch nitrification and N2O flux: effects of urine aucubin rate in a laboratory trial. New Zealand Journal of Agricultural Research. doi:10.1080/00288233.2019.1626743.
  • Haynes RJ, Williams PH. 1993. Nutrient cycling and soil fertility in the grazed pasture ecosystem. Advances in Agronomy. 49:119–199.
  • Hewitt AE. 2010. New Zealand soil classification. Landcare Research Science Series. 1:136.
  • Hosomi M, Sudo R. 1986. Simultaneous determination of total nitrogen and total phosphorus in freshwater samples using persulfate digestion. International Journal of Environmental Studies. 27(3–4):267–275.
  • Jiménez C, Riguera R. 1994. Phenylethanoid glycosides in plants: structure and biological activity. Natural Product Reports. 11:591–606. doi:10.1039/np9941100591.
  • Judson HG, Fraser PM, Peterson ME. 2019. Nitrification inhibition by urine from cattle consuming Plantago lanceolata. Journal of New Zealand Grasslands. 81:11–116.
  • Ledgard S, Schils R, Erikson J, Luo J. 2009. Environmental impacts of grazed clover/grass pastures. Irish Journal of Agricultural and Food Research. 48:209–226.
  • Luo J, Hoogendoorn C, van der Weerden T, Saggar S, de Klein CAM, Giltrap D, Rollo M, Rys G. 2013. Nitrous oxide emissions from grazed hill land in New Zealand. Agriculture, Ecosystems & Environment. 181:58–68.
  • Luo J, Balvert SF, Wise B, Welten B, Ledgard SF, de Klein C AM, Lindsey S, Judge A. 2018. Using alternative forage species to reduce emissions of the greenhouse gas nitrous oxide from cattle urine deposited onto soil. Science of the Total Environment. 610–611:1271–1280.
  • McKenzie H, Wallace HS. 1954. The Kjeldahl determination of nitrogen: a critical study of digestion conditions-temperature, catalyst, and oxidizing agent. Australian Journal of Chemistry. 7(1):55–70.
  • Miehe-Steier A, Roscher C, Reichelt M, Gershenzon J, Unsicker SB. 2015. Light and nutrient dependent responses in secondary metabolites of Plantago lanceolata offspring are due to phenotypic plasticity in experimental grasslands. PLoS ONE. 10(9):e0136073. doi:10.1371/journal.pone.0136073.
  • Moir JL, Cameron KC, Di HJ, Fertsak U. 2011. The spatial coverage of dairy cattle urine patches in an intensively grazed pasture system. The Journal of Agricultural Science. 149(4):473–485.
  • Mulvaney RL, Bremner JM. 1979. A modified diacetyl monoxime method for colorimetric determination of urea in soil extracts. Communications in Soil Science and Plant Analysis. 10(8):1163–1170.
  • Navarrete S, Kemp PD, Pain SJ, Back PJ. 2016. Secondary metabolites, aucubin and acteoside, in plantain (Plantago lanceolata L.) and their in vitro rumen fermentation. Animal Feed Science and Technology. 222:158–167.
  • Rodriguez MJ, Kemp PD, Navarrete S, Hanly JA, Horne DJ, Bishop P. 2020. Nitrogen losses from plantain: what can we say? In: C.L. Christensen, D.J. Horne, R. Singh, editors. Nutrient management in Farmed landscapes. Palmerston North, New Zealand: Farmed Landscapes Research Centre, Massey University; p. 8; Occasional Report No. 33. http://flrc.massey.ac.nz/publications.html.
  • Selbie DR, Buckthought LE, Shepherd MA. 2015. The challenge of the urine patch for managing Nitrogen in grazed pasture systems. Advances in Agronomy. 129:229–292.
  • Simon PL, de Klein CAM, Worth W, Rutherford AJ, Dieckow J. 2019. The efficacy of Plantago lanceolata for mitigating nitrous oxide emissions from cattle urine patches. Science of the Total Environment. 691:430–441.
  • Stark C, Richards KG. 2008. The continuing challenge of agricultural nitrogen loss to the environment in the context of global change and advancing research. Dynamic Plant. 2:1–12.
  • Stewart AV. 1996. Plantain (Plantago lanceolata) – a potential pasture species. Proceedings of the New Zealand Grassland Association. 58:77–86.
  • Subbarao GV, Wang HY, Ito O, Nakahara K, Berry WL. 2007. NH4+ triggers the synthesis and release of biological nitrification inhibition compounds in brachiaria humidicola roots. Plant and Soil. 290(1):245–257.
  • Tamura Y, Nishibe S. 2002. Changes in the concentrations of secondary metabolites in plantain leaves. Journal of Agricultural and Food Chemistry. 50(9):2514–2518.
  • Totty VK, Greenwood SL, Bryant RH, Edwards GR. 2013. Nitrogen partitioning and milk production of dairy cows grazing simple and diverse pastures. Journal of Dairy Science. 96:141–149. doi:10.3168/jds.2012-5504.
  • van der Weerden TJ, Clough TJ, Styles TM. 2013. Using near-continuous measurements of N2O emission from urine-affected soil to guide manual gas sampling regimes. New Zealand Journal of Agricultural Research. 56(1):60–76. doi:10.1080/00288233.2012.747548.
  • Welten BG, Ledgard SF, Judge AA, Sprosen MS, McGowan AW, Dexter MM. 2019. Efficacy of different temperate pasture species to reduce nitrogen leaching from cattle urine applied in different seasons: a soil lysimeter study. Soil Use and Management. 35(4):653–663.
  • Woods RR, Cameron KC, Edwards GR, Di HJ, Clough TJ. 2018. Reducing nitrogen leaching losses in grazed dairy systems using an Italian ryegrass-plantain-white clover forage mix. Grass and Forage Science. 73(4):878–887.
  • Wurst S, Wagenaar R, Biere A, van der Putten WH. 2010. Microorganisms and nematodes increase levels of secondary metabolites in roots and root exudates of Plantago lanceolata. Plant and Soil. 329(1):117–126.

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