Spines as a mechanical defence: the effects of fertiliser treatment on juvenile Acacia tortilis plants. Gowda, J. H., Albrectsen, B. R., Ball, J. P., Sjoberg, M., & Palo, R. T. Acta Oecologica-International Journal of Ecology, 24(1):1–4, March, 2003. Place: Paris Publisher: Gauthier-Villars/Editions Elsevier WOS:000182473100001doi abstract bibtex Using growth of different tissues in Acacia tortilis as a model, we tested current hypotheses on how nutrients affect mechanical plant defence. In a greenhouse experiment we applied a balanced commercial fertiliser (NPK) at three treatment levels to juvenile potted Acacias. As expected, plants increased in size with nutrient addition. More importantly, however, the relative mass of long spines increased significantly more than other structural components (leaves and twigs). This effect is not predicted by current nutrient availability hypotheses; which suggest either equal or proportionally lower investment in mechanical defence with increasing nutrient availability. Our results suggest that investment in spine size is nutrient limited in Acacia tortilis. It is commonly observed that the risk of damage by herbivores is highest on plants growing in nutrient-rich soils. If spines act as an effective form of anti-herbivore protection, then these plants might be expected to increase their production of physical defences (long spines) under such circumstances. Plants growing under higher nutrient conditions might therefore invest more in constitutive defences. These changes in allocation pattern are consistent with the increase in production of long spines, which are also induced by browsing. (C) 2003 Editions scientifiques et medicales Elsevier SAS. All rights reserved.
@article{gowda_spines_2003,
title = {Spines as a mechanical defence: the effects of fertiliser treatment on juvenile {Acacia} tortilis plants},
volume = {24},
issn = {1146-609X},
shorttitle = {Spines as a mechanical defence},
doi = {10/c5c6n4},
abstract = {Using growth of different tissues in Acacia tortilis as a model, we tested current hypotheses on how nutrients affect mechanical plant defence. In a greenhouse experiment we applied a balanced commercial fertiliser (NPK) at three treatment levels to juvenile potted Acacias. As expected, plants increased in size with nutrient addition. More importantly, however, the relative mass of long spines increased significantly more than other structural components (leaves and twigs). This effect is not predicted by current nutrient availability hypotheses; which suggest either equal or proportionally lower investment in mechanical defence with increasing nutrient availability. Our results suggest that investment in spine size is nutrient limited in Acacia tortilis. It is commonly observed that the risk of damage by herbivores is highest on plants growing in nutrient-rich soils. If spines act as an effective form of anti-herbivore protection, then these plants might be expected to increase their production of physical defences (long spines) under such circumstances. Plants growing under higher nutrient conditions might therefore invest more in constitutive defences. These changes in allocation pattern are consistent with the increase in production of long spines, which are also induced by browsing. (C) 2003 Editions scientifiques et medicales Elsevier SAS. All rights reserved.},
language = {English},
number = {1},
journal = {Acta Oecologica-International Journal of Ecology},
author = {Gowda, J. H. and Albrectsen, B. R. and Ball, J. P. and Sjoberg, M. and Palo, R. T.},
month = mar,
year = {2003},
note = {Place: Paris
Publisher: Gauthier-Villars/Editions Elsevier
WOS:000182473100001},
keywords = {balance, carbon-nutrient balance, growth pattern, herbivory, mammalian herbivores, nitrogen fertilisation, nutrient addition, plant-herbivore interactions, resistance, resource availability, thorns, trees},
pages = {1--4},
}
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More importantly, however, the relative mass of long spines increased significantly more than other structural components (leaves and twigs). This effect is not predicted by current nutrient availability hypotheses; which suggest either equal or proportionally lower investment in mechanical defence with increasing nutrient availability. Our results suggest that investment in spine size is nutrient limited in Acacia tortilis. It is commonly observed that the risk of damage by herbivores is highest on plants growing in nutrient-rich soils. If spines act as an effective form of anti-herbivore protection, then these plants might be expected to increase their production of physical defences (long spines) under such circumstances. Plants growing under higher nutrient conditions might therefore invest more in constitutive defences. These changes in allocation pattern are consistent with the increase in production of long spines, which are also induced by browsing. (C) 2003 Editions scientifiques et medicales Elsevier SAS. All rights reserved.","language":"English","number":"1","journal":"Acta Oecologica-International Journal of Ecology","author":[{"propositions":[],"lastnames":["Gowda"],"firstnames":["J.","H."],"suffixes":[]},{"propositions":[],"lastnames":["Albrectsen"],"firstnames":["B.","R."],"suffixes":[]},{"propositions":[],"lastnames":["Ball"],"firstnames":["J.","P."],"suffixes":[]},{"propositions":[],"lastnames":["Sjoberg"],"firstnames":["M."],"suffixes":[]},{"propositions":[],"lastnames":["Palo"],"firstnames":["R.","T."],"suffixes":[]}],"month":"March","year":"2003","note":"Place: Paris Publisher: Gauthier-Villars/Editions Elsevier WOS:000182473100001","keywords":"balance, carbon-nutrient balance, growth pattern, herbivory, mammalian herbivores, nitrogen fertilisation, nutrient addition, plant-herbivore interactions, resistance, resource availability, thorns, trees","pages":"1–4","bibtex":"@article{gowda_spines_2003,\n\ttitle = {Spines as a mechanical defence: the effects of fertiliser treatment on juvenile {Acacia} tortilis plants},\n\tvolume = {24},\n\tissn = {1146-609X},\n\tshorttitle = {Spines as a mechanical defence},\n\tdoi = {10/c5c6n4},\n\tabstract = {Using growth of different tissues in Acacia tortilis as a model, we tested current hypotheses on how nutrients affect mechanical plant defence. In a greenhouse experiment we applied a balanced commercial fertiliser (NPK) at three treatment levels to juvenile potted Acacias. As expected, plants increased in size with nutrient addition. More importantly, however, the relative mass of long spines increased significantly more than other structural components (leaves and twigs). This effect is not predicted by current nutrient availability hypotheses; which suggest either equal or proportionally lower investment in mechanical defence with increasing nutrient availability. Our results suggest that investment in spine size is nutrient limited in Acacia tortilis. It is commonly observed that the risk of damage by herbivores is highest on plants growing in nutrient-rich soils. If spines act as an effective form of anti-herbivore protection, then these plants might be expected to increase their production of physical defences (long spines) under such circumstances. 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