Abstract
Plantation establishment using invasive alien plants is common in South Africa, but the effects of these plants on soil physical properties in the Vhembe biosphere is unknown. In this comparative study, soils underneath Pinus elliottii and Eucalyptus cloeziana were assessed for differences in physical properties compared to soils underneath adjacent natural sites in the Entabeni plantation in the Vhembe biosphere in Limpopo Province, South Africa. Soils were collected from topsoil over 3 months and quantified for gravimetric soil moisture, penetration resistance, soil infiltration, hydraulic conductivity and soil water repellency. For all 3 months, soils from both P. elliottii and E. cloeziana plantations were compact and had low penetration resistance compared to soils from adjacent natural sites. Soil infiltration and hydraulic conductivity were significantly (p < 0.05) lower in soils from plantations compared to soils from adjacent natural sites, and more so from the E. cloeziana plantation than from P. elliottii. Soil water repellency was observed in soils from E. cloeziana only in May and June. Soils from the invasive alien tree plantation have decreased soil moisture, infiltration rate, hydraulic conductivity and are compact as well as repellent (only E. cloeziana), all poor soil physical properties. However, this decline in soil physical properties was not uniform between the two invasive alien plantation species; hence we cannot generalize about the effects of invasive alien plantation species on soil physical properties, and further research is required across different ecological regions.
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References
Bisdom EBA, Dekker LW, Schoute JFT (1993) Water repellency of sieve fractions from sandy soils and relationships with organic material and soil structure. Geoderma 56:105–118
Black CA (1965) Methods of soil analysis: part I. Physical and mineralogical properties. American Society of Agronomy, Madison
Brockerhoff EG, Jactel H, Parrotta JA, Quine CP, Sayer J (2008) Plantation forests and bio-diversity: oxymoron or opportunity? Biodivers Conserv 17:925–951
Brundu G, Richardson DM (2016) Planted forests and invasive alien trees in Europe: a code for managing existing and future plantings to mitigate the risk of negative impacts from invasions. NeoBiota 30:5–47
Decagon (2014) Minidisk infiltrometer user’s manual. Decagon Devices Inc, Pullman
Demessie A, Singh BR, Lal R, Børresen T (2012) Effects of eucalyptus and coniferous plantations on soil properties in Gambo District, southern Ethiopia. Acta Agric Scand Sect B Soil Plant Sci 62(5):455–466
Doerr SH, Thomas AD (2000) The role of soil moisture in controlling water repellency: new evidence from forest soils in Portugal. J Hydrol 231–232:134–147
du Toit B, Smith CW, Little KM, Boreham G, Pallett RN (2010) Intensive, site-specific silviculture: manipulating resource availability at establishment for improved stand productivity. A review of South African research. For Ecol Manag 259:1836–1845
Eldridge DJ, Freudenberger D (2005) Ecosystem wicks: woodland trees enhance water infiltration in a fragmented agricultural landscape in eastern Australia. Austral Ecol 30:336–347
Espinosa-García FJ, Martínez-Hernández E, Quiroz-Flores A (2008) Allelopathic potential of Eucalyptus spp plantations on germination and early growth of annual crops. Allelopathy J 21(1):25–37
Fatehnia M, Tawfiq K, Abichou T (2014) Comparison of the methods of hydraulic conductivity estimation from Mini Disk Infiltrometer. Electron J Geotech Eng 19:1047–1063
Forsyth GG, Richardson DM, Brown PJ, Van Wilgen BW (2004) A rapid assessment of the invasive status of Eucalyptus species in two South African provinces. S Afr J Sci 100:75–77
Granged AJP, Jordán A, Zavala LM, Muñoz-Rojas M, Mataix-Solera J (2011) Short-term effects of experimental fires for a soil under eucalyptus forest (SE Australia). Geoderma 167–168:125–134
Grey DC, Jacobs EO (1987) The impact of harvesting on forest site quality. S Afr For J 140:60–66
Hamza M, Anderson W (2005) Soil compaction in cropping systems. A review of the nature, causes and possible solutions. Soil Tillage Res 82:121–145
IBM Corporation SPSS (2017) IBM SPSS statistics for windows, version 25. Armonk, NY, USA
Jung K-Y, Kitchen NR, Sudduth KA, Lee K-S, Chung S-O (2010) Soil compaction varies by crop management system over a claypan soil landscape. Soil Tillage Res 107:1–10
Keizer JJ, Doerr SH, Malvar MC, Prats SA, Ferreira RSV, Oñate MG, Coelho COA, Ferreira JD (2008) Temporal variation in topsoil water repellency in two recently burnt Eucalypt stands in north-central Portugal. CATENA 74:192–204
Kerr TF, Ruwanza S (2015) Does Eucalyptus grandis invasion and removal affect soils and vegetation in the Eastern Cape Province, South Africa? Austral Ecol 41:328–338
Latorre B, Moret-Fernández D, Peña C (2013) Estimate of soil hydraulic properties from disc infiltrometer three-dimensional infiltration curve: theoretical analysis and field applicability. Procedia Environ Sci 19:580–589
Le Maitre DC, Scott DF, Fairbanks DHK (1997) The impacts of timber plantations on runoff in South Africa: a handy reference manual. Report ENV/S-C 96068, Department of Water Affairs and Forestry, Pretoria
Leung Y-F, Meyer K (2003) Soil compaction as indicated by penetration resistance: A comparison of two types of penetrometers. In: Harmon D, Kilgore BM, Vietzke GE (eds) Protecting our diverse heritage: the role of parks, protected areas, and cultural sites. Proceedings of the George Wright Society/National Park Service joint conference, Hancock, pp 370–375
Li XG, Li FM, Rengel Z, Bhupinderpal S, Wang ZF (2006) Cultivation effects on temporal changes of organic carbon and aggregate stability in desert soils of Hexi Corridor region in China. Soil Tillage Res 91:22–29
Liu W, Wu J, Fan H, Duan H, Li Q, Yuan Y, Zhang H (2017) Estimations of evapotranspiration in an age sequence of Eucalyptus plantations in subtropical China. PLoS ONE 12(4):e0174208
Louw J, Chapman A, Strydom H (1994) Site classification and evaluation of Entabeni plantation: Northern Transvaal. Report FOR-DEA 818, Environmentek, CSIR, Pretoria
Lowe S, Browne M, Boudjelas S, De Poorter M (2000) 100 of the world’s worst invasive alien species: a selection from the global invasive species database. Gland: The Invasive Species Specialist Group (ISSG) a specialist group of the Species Survival Commission (SSC) of the World Conservation Union (IUCN)
Madeira MAV (1989) Changes in soil properties under Eucalyptus plantations in Portugal. In: Pereira JS, Landsberg JJ (eds) Biomass production by fast-growing trees. Kluwer Academic Publishers, Dordrecht, pp 81–99
Maier CA, Albaugh TJ, Cook RI, Hall K, McInnis D, Johnsen KH, Johnson J, Rubilar RA, Vose JM (2017) Comparative water use in short-rotation Eucalyptus benthamii and Pinus taeda trees in the Southern United States. For Ecol Manag 397:126–138
Moran VC, Hoffmann JH, Donnelly D, Van Wilgen BW, Zimmermann HG (2000) Biological control of alien, invasive Pine trees (Pinus species) in South Africa. In: Neal RS (eds) Proceedings of the X international symposium on biological control of weeds, 4–14 July 1999, Montana State University, Bozeman, Montana, USA, pp 941–953
Mucina L, Rutherford MC (2006) The vegetation of South Africa, Lesotho and Swaziland. Strelitzia 19, South African National Biodiversity institute, Pretoria
Myers BJ, Theiveyanathan S, O’Brien ND, Bond WJ (1996) Growth and water use of Eucalyptus grandis and Pinus radiata plantations irrigated with effluent. Tree Physiol 16:211–219
Nawaz MF, Bourrié G, Trolard F (2013) Soil compaction impact and modelling. A review. Agron Sustain Dev 33:291–309
Ober HK, DeGroote LW (2014) Repeated raking of pine plantations alters soil arthropod communities. Forests 5:689–714
Patterson WB, Blazier MA, Holtard SL (2010) Pinestraw raking, fertilization and poultry litter amendment effects on soil physical properties for a mid-rotation loblolly pine plantation. In: General technical report. USDA Forest Service, Southern Research Station, Asheville, NC, USA, pp 43–46
Pote DH, Grigg BC, Blanche CA, Daniel TC (2004) Effects of pine straw harvesting on quantity and quality of surface runoff. J Soil Water Conserv 59:197–203
Price RA, Liston A, Strauss SH (1998) Phylogeny and systematics of Pinus. In: Richardson DM (ed) Ecology and biogeography of Pinus. Cambridge University Press, Cambridge, pp 49–68
Rietz DN (2010) The effects of compaction and residue management on soil properties and growth of Eucalyptus grandis at two sites in KwaZulu-Natal, South Africa. Ph.D. thesis, University of KwaZulu-Natal, Pietermaritzburg, South Africa
Rietz DN, Smith CW, Hughes JC (2010) Effect of compaction and residue management on soil bulk density on two contrasting sites in KwaZulu-Natal. ICFR bulletin series no. 04/2010. Institute for Commercial Forestry Research, Pietermaritzburg
Robinson N, Harper RJ, Smettem KRJ (2006) Soil water depletion by Eucalyptus spp. integrated into dryland agricultural systems. Plant Soil 286:141–151
Rodríguez-Alleres M, Benito E (2011) Spatial and temporal variability of surface water repellency in sandy loam soils of NW Spain under Pinus pinaster and Eucalyptus globulus plantations. Hydrol Process 25:3649–3658
Ross T, du Toit B, Dovey SD (2005) Nutrient pools in slash loads in Pinus patula sawtimber and pulpwood stands in South Africa. ICFR bulletin series no. 10/2005. Institute for Commercial Forestry Research, Pietermaritzburg
Ruwanza S, Gaertner M, Esler KJ, Richardson DM (2013) Soil water repellency in riparian systems invaded by Eucalyptus Camaldulensis: a restoration perspective from the Western Cape Province in South Africa. Geoderma 200:9–17
Sands R, Greacen EL, Gerard CJ (1979) Compaction of sandy soils in Radiata pine forests. I. A penetrometer study. Aust J Soil Res 17(1):101–113
Santos JM, Verheijen FGA, Wahren FT, Wahren A, Feger K-H, Bernard-Jannin L, Rial-Rivas ME, Keizer JJ, Nunes JP (2016) Soil water repellency dynamics in pine and eucalypt plantations in Portugal—a high-resolution time series. Land Degrad Dev 27:1334–1343
Scott DF, Le Maitre DC, Fairbanks DHK (1998) Forestry and streamflow reductions in South Africa. A reference system for assessing extent and distribution. Water SA 24:187–199
Silva S, Barros N, Costa L, Leite F (2008) Soil compaction and eucalyptus growth in response to forwarder traffic intensity and load. Rev Bras Cienc Solo 32:921–932
Smith CW (2006) The effect of harvesting operations on the growth of E. grandis at two contrasting sites in the KwaZulu-Natal Midlands. ICFR bulletin series no. 15/2006. Institute for Commercial Forestry Research, Pietermaritzburg
Tererai F, Gaertner M, Jacobs SM, Richardson DM (2015) Eucalyptus camaldulensis invasion in riparian zones reveals few significant effects on soil physico-chemical properties. River Res Appl 31(5):590–601
Titshall L, Dovey S, Rietz D (2013) A review of management impacts on the soil productivity of South African commercial forestry plantations and the implications for multiple-rotation productivity. South For 75(4):169–183
Turner J, Lambert MJ (1988) Soil properties as affected by Pinus radiata plantations. NZ J For Sci 18(1):77–91
van Lill WS, Kruger FJ, van Dyk DB (1980) The effect of afforestation with Eucaluptus grandis Hill ex Maiden and Pinus patula Schlecht. Et. Cham. on streamflow from experimental catchments at Mokubalaan. Transvaal J Hydrol 48:107–118
van Wilgen BW, Richardson DM (2012) Three centuries of managing introduced conifers in South Africa: Benefits, impacts, changing perceptions and conflict resolution. J Environ Manag 106:56–68
Wang J, Xin L (2016) Effects of poplar plantations on the physical and chemical properties of soils: a case study in the North China Plain. J Res Ecol 7(5):352–359
Zhang R (1997) Determination of soil sorptivity and hydraulic conductivity from the disk infiltrometer. Soil Sci Soc Am J 61:1024–1030
Zhang R (1998) Estimating soil hydraulic conductivity and macroscopic capillary length from the disk infiltrometer. Soil Sci Soc Am J 62:1513–1521
Zhang NN, Xu DP, Jim M, Zhou GY, Bai JY, Zhou T (2007) Water consumption of Eucalyptus urophylla plantations on the Leizhou Peninsula. Forest Res 20(1):1–5
Zhao CJ, Wu ZY, Kang MY, Fan WB, Lin Z, Zhuo ZQ (2015) Variation of soil moisture content for Eucalyptus forests and its response to stand ages in Western Hainan. Acta Ecol Sin 35(6):692–700
Acknowledgements
This research study was funded by the University of Venda under the research and development directorate. We are grateful to Entabeni plantation management for permission to conduct this study at Entabeni plantation. Thanks to the Department of Environmental Science at Rhodes University for the mini disk infiltrometer.
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Project funding: This research was funded by the University of Venda under the research and development directorate.
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Corresponding editor: Chai Ruihai
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Ntshuxeko, V.E., Ruwanza, S. Physical properties of soil in Pine elliottii and Eucalyptus cloeziana plantations in the Vhembe biosphere, Limpopo Province of South Africa. J. For. Res. 31, 625–635 (2020). https://doi.org/10.1007/s11676-018-0830-3
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DOI: https://doi.org/10.1007/s11676-018-0830-3