Abstract
Mundulla Yellows is a dieback disorder of trees (predominantly eucalypts) along roadsides in the southeast of South Australia, characterized by interveinal yellowing of leaves and eventual death. There are two main theories about the cause of Mundulla Yellows: (1) that the yellowing is lime chlorosis, caused by crushed limestone dust from roads being washed into soil, and (2) that it is caused by an irreversible and transmissible biotic pathogen. We tested the lime chlorosis hypothesis by inserting nutrients directly into the sapwood of symptomatic trees using systemic nutrient implants. If the lime chlorosis hypothesis is correct, nutrient injections of iron and manganese should increase chlorophyll synthesis and result in leaves becoming greener. We applied four different nutrient combinations (iron, manganese, iron + manganese, and a treatment that included a range of essential plant nutrients), as well as control treatments, to symptomatic trees across 10 sites. After 14 weeks there were significant increases in leaf greenness and crown health, compared to controls, when trees received either iron or iron and manganese implants. The results add further weight to the lime chlorosis hypothesis. Nutrient implants are unlikely to be a viable management strategy due to their cost and potentially short-term benefits, and trees will inevitably be lost from the region’s roadsides. Management options should involve increasing revegetation efforts and natural passive regeneration of trees away from affected roadsides, and revegetating the affected areas with species that are suited to the changed soil conditions.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Angas Bremer Land and Water Management Plan (2009) Mundulla Yellows - preliminary red gum trials. Government of South Australia, South Australian Murray Darling Basin Natural Resources Management Board
Australian Government Bureau of Meteorology (2016) Rainfall and temperature records. http://www.bom.gov.au/. Accessed 4 June 2016
Czerniakowski B, Crnov R, Smith IW, Luck JE (2005) Preliminary management strategies for Mundulla Yellows. Pages 26–29. In 15th Australasian Plant Pathology Society Conference, Conference proceedings, Geelong
Czerniakowski B, Crnov R, Smith IW, Luck JE (2006) Soil properties associated with the tree decline ‘Mundulla Yellows’. Plant Soil 285:197–206
Dell B (1996) Diagnosis of nutrient deficiencies in eucalypts. In: Attiwill P, Adams MA (eds) Nutrition of eucalypts. CSIRO Australia, Collingwood, pp 417–440
Dorrough J, Moxham C (2005) Eucalypt establishment in agricultural landscapes and implications for landscape-scale restoration. Biol Conserv 123:55–66
Fife DN, Michael M (2009) Failure of Eucalyptus globulus (Labill.) plantations on previously irrigated pasture sites in South-Eastern South Australia. Aust For 72:12–19
Fischer J, Stott J, Zerger A, Warren G, Sherren K, Forrester RI (2009) Reversing a tree regeneration crisis in an endangered ecoregion. PNAS 106:10386–10391
Gibbons P, Lindenmayer D, Fischer J, Manning A, Weinberg A, Seddon J, Ryan P, Barrett G (2008) The future of scattered trees in agricultural landscapes. Conserv Biol 22:1309–1319
Graham RD, Stangoulis JCR (2003) Trace element uptake and distribution in plants. J Nutr 133:1502S–1505S
Green RE, Cornell SJ, Scharlemann JPW, Balmford A (2005) Farming and the fate of wild nature. Science 307:550–555
Greenway H, Armstrong W, Colmer TD (2006) Conditions leading to high CO2 (> 5 kPa) in waterlogged–flooded soils and possible effects on root growth and metabolism. Ann Bot 98:9–32
Grigg A, Close DC, Lambers H, Ruthrof KX, Dixon KW (2009) Ecophysiology of Eucalyptus marginata and Corymbia calophylla in decline in an urban parkland. Austral Ecol 34:499–507
Grime J, Hutchinson T (1967) The incidence of lime-chlorosis in the natural vegetation of England. J Ecol 55:557–566
Hanold D (2010) Ailing eucalypts. New Sci 208:26–27
Hanold D, Stukley M, Randles JW (2002) Mundulla Yellows - a new tree-dieback threat. Government of Western Australia Department of Conservation and Land Management
Hanold D, Gowanlock D, Stukely MJC, Habili N, Randles JW (2006) Mundulla Yellows disease of eucalypts: descriptors and preliminary studies on distribution and etiology. Australas Plant Pathol 35:199–215
Luck JE, Crnov R, Czerniakowski B, Smith IW, Moran JR (2006) Investigating the presence of biotic agents associated with Mundulla Yellows. Plant Dis 90:404–410
Manning AD, Fischer J, Lindenmayer DB (2006) Scattered trees are keystone structures - implications for conservation. Conserv Biol 132:311–321
Manning AD, Gibbons P, Lindenmayer DB (2009) Scattered trees: a complementary strategy for facilitating adaptive responses to climate change in modified landscapes? J Appl Ecol 46:915–919
Marcar NE, Zohar Y, Guo J, Crawford DF (2002) Effect of NaCl and high pH on seedling growth of 15 Eucalyptus camaldulensis Dehnh. provenances. New For 23:193–206
Martin RA, Burgman MA, Minchin PR (2001) Spatial analysis of eucalypt dieback at Coranderrk, Australia. Appl Veg Sci 4:257–266
Parsons RF, Uren NC (2007) The relationship between lime chlorosis, trace elements and Mundulla Yellows. Australas Plant Pathol 36:415–418
Parsons RF, Uren NC (2011) Is Mundulla Yellows really a threat to undisturbed native vegetation? A comment. Ecol Manag Restor 12:72–74
Paton DC, Cutten J (1999) Distribution, spread and progression of Mundulla Yellows in South Australia. Pages 13–18. In Mundulla Yellows : a new threat to our native vegetation - meeting the challenge Proceedings of the seminar presented by the Conservation Council of South Australia in association with the University of Adelaide
Paton DC, Cutten J (2000) Mundulla Yellows: a growing concern. Danthonia 8:4–5
Paton DC, Rogers DJ, McInerney J (2005) Health and status of eucalypts in the South-East of South Austrlaia. School of Earth and Environmental Sciences, University of Adelaide, SA
R Core Team (2016) R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna. http://www.R-project.org
Randles JW, Hanold D, Stukely M, Thompson N (2010) Investigating diseases of unknown etiology: the Mundulla Yellows experience. Acta Hortic 849:325–329
Raven JA (1990) Predictions of Mn and Fe use efficiencies of phototrophic growth as a function of light availability for growth and of C assimilation pathway. New Phytol 116:1–18
Reid NCH, Landsberg J (2000) Tree decline in agricultural landscapes: what we stand to lose. In: Hobbs RJ, Yates CJ (eds) Temperate eucalypt woodlands in Australia: biology, conservation, management and restoration. Surrey Beatty and Sons, Chipping Norton, pp 127–166
Scott P, Dell B, Shearer B, Barber P, Hardy J (2013) Phosphite and nutrient applications as explorative tools to identify possible factors associated with Eucalyptus gomphocephala decline in South-Western Australia. Australas Plant Pathol 42:701–711
Scott P, Barber P, Hardy GSJ (2015) Novel phosphite and nutrient application to control Phytophthora cinnamomi disease. Australas Plant Pathol 44:431–436
van der Ree R, Bennett A (2001) Woodland remnants along roadsides: a reflection of pre-European structure in temperate woodlands? Ecol Manage Restor 2:224–226
Williams J, Hook RA, Hamblin A (2002) Agro-ecological regions of Australia: methodologies for their derivation and key issues in resource management. CSIRO Land and Water, Canberra
Acknowledgements
Thanks to Ashley Olsen for his assistance in the field, including his photography. We would like to thank the following volunteers for the time they dedicated to scoring photographs: Emily Matthews, Phuong Doan, Michael Woodland, Sarah Box, Eleanor Fox, Patrick Piggott, Corrine Duncan, Rashedul Islam, Sandra Weller, Kristal Kinnane, Ramyaroopan Sewgolam, Freja Butler, Josh Matthews, Georgina Gould-Hardwick, Patrick Gregurke, Greg Horrocks, Gillian Armstrong, Naomi Menzel and Adrian Petrovich. Thanks to the Coorong and Tatiara District Local Action Plan committee, and in particular Graham Gates and Tracey Strugnell, for support, funding, and for helping us locate suitable sites. Thanks to Josie Jackson for sharing her considerable local knowledge. Comments from two anonymous reviewers helped to improve the manuscript considerably.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Schultz, N.L., Good, M.K. Systemic iron implants alleviate symptoms of Mundulla Yellows in roadside eucalypts in south east South Australia. Australasian Plant Pathol. 47, 393–403 (2018). https://doi.org/10.1007/s13313-018-0571-y
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s13313-018-0571-y