Development of cork oak (Quercus suber L.) seedlings in response to tree shelters and mulching in northwestern Tunisia

Taher Mechergui; Marta Pardos; Naceur Boussaidi; Brahim Hasnaoui; Douglass F. Jacobs

doi:10.1007/s11676-013-0345-x

Journal of Forestry Research ›› 2013, Vol. 24 ›› Issue (2) : 193 -204. DOI: 10.1007/s11676-013-0345-x

Original Paper

Development of cork oak (Quercus suber L.) seedlings in response to tree shelters and mulching in northwestern Tunisia

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Abstract

The need for reforestation in cork oak (Quercus suber L.) areas is challenged by difficulties. Principal among these is herbivory of young plants, vegetative competition, and slow growth rates of cork oak seedlings. We evaluated the early development of cork oak seedlings treated using tree shelters and mulching in northwestern Tunisia. We tested three tree shelter treatments (non-vented, vented, and control) to shield seedlings from animal damage and five mulch types to control competing vegetation (Italian Stone Pine, Lentisk, combination of Italian Stone Pine and Lentisk (organic mulches), gravel (inorganic mulch) and no mulch). At the end of the two-year experiment, sheltered seedlings were 89–99% taller than unsheltered seedlings and had higher numbers and lengths of shoot growth flushes. In contrast, both stem diameter growth and dry weight biomass (from samples extracted after two years) were significantly reduced inside tree shelters. Root-to-shoot ratio was not significantly different in sheltered vs. unsheltered seedlings, suggesting that tree shelters do not adversely affect this parameter. Mulching alone did not favour growth, but could be beneficial when combined with tree shelters. The combination of vented tree shelters and gravel mulch was the most effective treatment for promoting diameter, height and stem volume growth.

Keywords

Quercus suber L. / afforestation / tree shelter / mulching / seedling growth / polycyclism

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Taher Mechergui, Marta Pardos, Naceur Boussaidi, Brahim Hasnaoui, Douglass F. Jacobs. Development of cork oak (Quercus suber L.) seedlings in response to tree shelters and mulching in northwestern Tunisia. Journal of Forestry Research, 2013, 24(2): 193-204 DOI:10.1007/s11676-013-0345-x

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References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Agresti A. Categorical Data Analysis, 2002 2nd edn Hoboken, New Jersey: John Wiley and Sons, Inc., 710

[2]	Alatou D. Recherches sur le déterminisme de la croissance rythmique du chêne: Quercus pedunculata Ehrh-Quercus mirbeckii Durieu-Quercus suber L. —Étude morphologique, biochimique et écophysiologique, 1990 109.

[3]	Bellot J, Ortiz de Urbina JM, Bonet A, Sanchez JR. The effects of tree shelters on the growth of Quercus coccifera L. seedlings in a semiarid environment. Forestry, 2002, 75: 89-106.

[4]	Bergez J-E, Dupraz C. Effect of ventilation on growth of Prunus avium seedlings grown in tree shelters. Agric For Meteorol, 2000, 104: 199-214.

[5]	Burger DW, Švihra P, Harris R. Tree shelter use in producing containergrown trees. HortScience, 1992, 27: 30-32.

[6]	Burger DW, Forister GW, Kiehl PA. Height, caliper growth, and biomass response of ten shade tree species to tree shelters. J Arboricult, 1996, 22: 161-166.

[7]	Chaar H, Colin F, Collet C. Effects of environmental factors on the shoot development of Quercus petraea seedlings: A methodological approach. For Ecol Manage, 1997, 97: 119-131.

[8]	Chaar H, Colin F. Développement en hauteur des régénérations de chêne sessile. Rev For Fr, 1999, 51: 341-354.

[9]	Chaar H, Mechergui T, Khouaja A, Abid H. Effects of tree shelters and polyethylene mulch sheets on survival and growth of cork oak (Quercus suber L.) seedlings planted in North-western Tunisia. For Ecol Manage, 2008, 256: 722-731.

[10]	Champagnat P, Payan E, Champagnat M, Barnola P, Lavarenne S, Bertholon C. La croissance rythmique de jeunes chênes pédonculés cultivés en conditions contrôlées et uniformes. Naturalia Monspelensia HS, 1986 303 337

[11]	Costello LR, Peters A, Giusti GA. An evaluation of treeshelter effects on plant survival and growth in a Mediterranean climate. Journal of Arboriculture, 1996, 22: 1-9.

[12]	Davies RJ. Sheet mulching as an aid to broadleaved tree establishment: I. The effectiveness of various synthetic sheets compared. Forestry, 1988, 61: 89-105.

[13]	Davies RJ. Sheet mulching as an aid to broadleaved tree establishment II. Comparison of various sizes of black polyethylene mulch and herbicide treated spot. Forestry, 1988, 61: 107-124.

[14]	Dubois MR, Chappelka AH, Robbins E, Somers G, Baker K. Tree shelters and weed control: effects on protection, survival and growth of cherrybark oak seedlings planted on a cutover site. New Forests, 2000, 20: 105-118.

[15]	Duryea ML, English RJ, Hermansen LA. A comparison of landscape mulches: chemical, allelopathic, and decomposition properties. J Arboricult, 1999, 25: 88-97.

[16]	Famiani F, Proietti P, Micheli M, Boco M, Standardi A. Effects of tree shelters on young olive (Oleaeuropaea) tree growth and physiology. New Zealand J Crop Horticult, 2007, 35: 303-312.

[17]	Fang SZ, Li HY, Xie BD. Decomposition and nutrient release of four potential mulching materials for poplar plantations on upland sites. Agroforest Syst, 2008, 74: 27-35.

[18]	Green DS, Kruger EL, Stanosz GR. Effects of polyethylene mulch in a short-rotation, poplar plantation vary with weed-control strategies, site quality and clone. For Ecol Manage, 2003, 173: 251-260.

[19]	Greenly KM, Rakow DA. The effect of wood mulch type and depth on weed and tree growth and certain soil parameters. J Arboricult, 1995, 21: 225-232.

[20]	Hall AE. Crop Responses to the Environment. 2001, Boca Raton, FL: CRC Press, 232.

[21]	Harmer R. Relation of shoot growth phases in seedling oak to development of the tap root, lateral roots and fine root tips. New Phytologist, 1990, 115: 23-27.

[22]	Harris RW. Arboriculture: Care of Trees, Shrubs, and Vines in the Landscape. 1983, Englewood Cliffs, NJ: Prentice Hall, 674.

[23]	Hasnaoui B. Chênaies du Nord de la Tunisie. Écologie et régénération, 1992 202.

[24]	Haywood JD. Mulch and hexazinone herbicide shorten the time longleaf pine seedlings are in the grass stage and increase height growth. New Forests, 2000, 19: 279-290.

[25]	Haywood JD, Youngquist JA. Mulching effects of plant fiber and plant fiberpolyester mats combined with fertilizer on loblolly pine seedlings. Tree Plant Notes, 1991, 42: 32-35.

[26]	Heuret P, Guédon Y, Guérard N, Barthélémy D. Analysing branching pattern in plantations of Young Red Oak Trees (Quercus rubra L., Fagaceae). Ann Bot, 2003, 91: 479-492.

[27]	Hou Y, Qu JT, Luo ZK, Zhang C, Wang KY. Morphological mechanism of growth response in treeline species Minjiang fir to elevated CO₂ and temperature. Silva Fennica, 2011, 45: 181-195.

[28]	Huang Z, Xu Z, Blumfield TJ, Bubb K. Effects of mulching on growth, foliar photosynthetic nitrogen and water use efficiency of hardwood plantations in subtropical Australia. For Ecol Manage, 2008, 25: 3447-3454.

[29]	Jacobs DF. Reforestation of a salvage-logged high-elevationclearcut: Engelmann spruce seedling response to tree shelters after eleven growing seasons. West J Appl For, 2011, 26: 53-56.

[30]	Jiménez MN, Navarro FB, Ripoll MA, Bocio I, De Simon E. Effect of shelter tubes on establishment and growth of Juniperus thurifera L. (Cupressaceae) seedlings in Mediterranean semi-arid environment. Ann For Sci, 2005, 62: 717-725.

[31]	Leroy C, Caraglio Y. Effect of tube shelters on the growth of young Turkish pines (Pinus brutia Ten., Pinaceae). Ann For Sci, 2003, 60: 539-547.

[32]	Littell RA, Milliken GA, Stroup WW, Wolfinger RD, Schabenberger O. SAS for mixed models, 2006 2nd edn USA: SAS Institute Inc, 813.

[33]	Löf M, Dey DC, Navarro RM, Jacobs DF. Mechanical site preparation for forest restoration. New Forests, 2012, 43: 825-848.

[34]	Mayhead GJ. Some alternatives to herbicides in British forestry. Q J Forest, 1992, 86: 105-112.

[35]	Mayhead GJ, Boothman IR. The effect of tree shelter height on the early growth of sessile oak (Quercus petraea (Matt.) Liebl.). Forestry, 1997, 70: 151-155.

[36]	McCreary DD, Tecklin J. Effects of seedling protectors and weed control on blue oak growth and survival. USDA For Serv Ge Technical Report, PSWGTR, 1997, 160: 243-249.

[37]	Nachtergaele J, Poesen J, van Wesemael B. Gravel mulching in vineyards of Southern Switzerland. Soil and Tillage Research, 1998, 35: 51-59.

[38]	Navarro Cerrillo RM, Fragueiro B, Ceaceros C, del Campo A, de Prado R. Establishment of Quercus ilex L. subsp. Ballota [Desf.] Samp. using different weed control strategies in southern Spain. Ecol Engin, 2005, 25: 332-342.

[39]	Neel PL, Harris RW. Motion-induced inhibition of elongation and induction of dormancy in Liquidamber. Science, 1971, 173: 58-59.

[40]	Nsibi R, Souayah N, Khouja LM, Khaldi A, Bouzid S. Impacts des facteurs biotiques et abiotiques sur la dégradation de subéraie tunisienne. GeoEcoTrop, 2006, 30: 25-34.

[41]	Oelbermann M, Voroney RP, Schlönvoigt AM, Kass DCL. Decomposition of Erythrina poeppigiana leaves in 3-, 9-, and 18-year-old alleycropping systems in Costa Rica. Agrofor Syst, 2004, 63: 27-32.

[42]	Oliet J, Jacobs DF. Microclimatic conditions and plant morphphysiological development within a tree shelter environment during establishment of Quercus ilex seedlings. Agric For Metereol, 2007, 144: 58-72.

[43]	Oliet JA, Planelles R, Artero F, Jacobs DF. Nursery fertilization and tree shelters affect long-term field response of Acacia salicina Lindl. planted in Mediterranean semiarid conditions. For Ecol Manage, 2005, 215: 339-351.

[44]	Puértolas J, Oliet JA, Jacobs DF, Benito LF, Peñuelas JL. Is light the key factor for success of tube shelters in forest restoration plantings under Mediterranean climates?. For Ecol Manage, 2010, 260: 610-617.

[45]	Pemán J, Peguero-Pina JJ, Valladares F, Gil-Pelegrín E. Evaluation of unventilated tree shelters in the context of Mediterranean climate: Insights from a study on Quercus faginea seedlings assessed with a 3D architectural plant model. Ecol Engin, 2010, 36: 517-526.

[46]	Ponder F. Tree shelters: Central hardwood notes. North Central Forest Experiment Station, 1994, 3(11): 1-4.

[47]	Potter MJ. Tree shelters. 1991, London: HMSO Publications, 89.

[48]	Quilhó T, Lopes F, Pereira H. The effect of tree shelter on the stem anatomy of cork oak (Quercus suber) plants. IAWA J, 2003, 24: 385-395.

[49]	Reich PB, Teskey RO, Johnson PS, Hinckley TM. Periodic root and shoot growth in oak. Forest Science, 1980, 26: 590-598.

[50]	Sharpe WE, Swistock BR, Mecum KA, Demchik MC. Greenhouse and field growth of northern red oak seedlings inside different types of tree shelters. J Arboricult, 1999, 25: 249-257.

[51]	Siipilehto J. Effect of weed control with fibre mulches and herbicides on the initial development of spruce, birch and aspen seedlings on abandoned farmland. Silva Fennica, 2001, 35: 403-414.

[52]	Taylor TS, Loewenstein EF, Chappelka AH. Effect of animal browse protection and fertilizer application on the establishment of planted Nuttall oak seedlings. New Forests, 2006, 32: 133-143.

[53]	Truax B, Gagnon D. Effects of straw and black plastic mulching on the initial growth and nutrition of butternut, white ash and bur oak. For Ecol Manage, 1993, 57: 17-27.

[54]	Tuley G. The growth of young oak trees in shelters. Forestry, 1985, 58: 181-195.

[55]	West DH, Chappelka AH, Tilt KM, Ponder HG, Williams JD. Effect of tree shelters on survival, growth, and wood quality of 11 tree species commonly planted in the southeastern United States. J Arboricult, 1999, 25: 69-75.