Short note Root restriction hindered early allometric differentiation between seedlings of two provenances of Canary Island Pine
Based on the optimal partitioning theory, the comparative assessment of seedling allometry is a common task in retrospective genetic tests and early testing of forest reproductive material. Our hypothesis was that root restriction imposed by the container might hinder or rule out genetic differences in biomass allocation. We grew seedlings of two contrasted provenances of Canary Islands pine in mini-rhizotrons, 60 and 90 cm deep, and alternatively in standard bottom-open 200 cc forest containers. In the mini-rhizotrons, plants from the drier provenance allocated more biomass to roots, especially to the tap root and invested less in needles, both in a biomass and leaf area basis, and this morphological divergence increased between two harvests, undertaken at 57 and 115 days after planting. By contrast, confirming our hypothesis, at the 115 days harvest, the plants grown in standard containers did not exhibited significant differences between provenances for Leaf Mass Fraction, Root Mass Fraction and Leaf Area Ratio. We conclude that the physical constraint for root development imposed by small containers increases the probability of dismissing the genetic effect in biomass allocation when assessing forest reproductive materials at the short term, even when the whole plant growth (total dry weight) might be unaffected.
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dig-inia-es-20.500.12792-58862020-12-15T09:52:28Z Short note Root restriction hindered early allometric differentiation between seedlings of two provenances of Canary Island Pine Climent, J. Alonso, J. Gil, L. Based on the optimal partitioning theory, the comparative assessment of seedling allometry is a common task in retrospective genetic tests and early testing of forest reproductive material. Our hypothesis was that root restriction imposed by the container might hinder or rule out genetic differences in biomass allocation. We grew seedlings of two contrasted provenances of Canary Islands pine in mini-rhizotrons, 60 and 90 cm deep, and alternatively in standard bottom-open 200 cc forest containers. In the mini-rhizotrons, plants from the drier provenance allocated more biomass to roots, especially to the tap root and invested less in needles, both in a biomass and leaf area basis, and this morphological divergence increased between two harvests, undertaken at 57 and 115 days after planting. By contrast, confirming our hypothesis, at the 115 days harvest, the plants grown in standard containers did not exhibited significant differences between provenances for Leaf Mass Fraction, Root Mass Fraction and Leaf Area Ratio. We conclude that the physical constraint for root development imposed by small containers increases the probability of dismissing the genetic effect in biomass allocation when assessing forest reproductive materials at the short term, even when the whole plant growth (total dry weight) might be unaffected. 2020-10-22T21:36:46Z 2020-10-22T21:36:46Z 2008 journal article http://hdl.handle.net/20.500.12792/5886 10.1515/sg-2008-0029 eng Attribution-NonCommercial-ShareAlike 4.0 International http://creativecommons.org/licenses/by-nc-sa/4.0/ open access |
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Based on the optimal partitioning theory, the comparative assessment of seedling allometry is a common task in retrospective genetic tests and early testing of forest reproductive material. Our hypothesis was that root restriction imposed by the container might hinder or rule out genetic differences in biomass allocation. We grew seedlings of two contrasted provenances of Canary Islands pine in mini-rhizotrons, 60 and 90 cm deep, and alternatively in standard bottom-open 200 cc forest containers. In the mini-rhizotrons, plants from the drier provenance allocated more biomass to roots, especially to the tap root and invested less in needles, both in a biomass and leaf area basis, and this morphological divergence increased between two harvests, undertaken at 57 and 115 days after planting. By contrast, confirming our hypothesis, at the 115 days harvest, the plants grown in standard containers did not exhibited significant differences between provenances for Leaf Mass Fraction, Root Mass Fraction and Leaf Area Ratio. We conclude that the physical constraint for root development imposed by small containers increases the probability of dismissing the genetic effect in biomass allocation when assessing forest reproductive materials at the short term, even when the whole plant growth (total dry weight) might be unaffected. |
| format |
journal article |
| author |
Climent, J. Alonso, J. Gil, L. |
| spellingShingle |
Climent, J. Alonso, J. Gil, L. Short note Root restriction hindered early allometric differentiation between seedlings of two provenances of Canary Island Pine |
| author_facet |
Climent, J. Alonso, J. Gil, L. |
| author_sort |
Climent, J. |
| title |
Short note Root restriction hindered early allometric differentiation between seedlings of two provenances of Canary Island Pine |
| title_short |
Short note Root restriction hindered early allometric differentiation between seedlings of two provenances of Canary Island Pine |
| title_full |
Short note Root restriction hindered early allometric differentiation between seedlings of two provenances of Canary Island Pine |
| title_fullStr |
Short note Root restriction hindered early allometric differentiation between seedlings of two provenances of Canary Island Pine |
| title_full_unstemmed |
Short note Root restriction hindered early allometric differentiation between seedlings of two provenances of Canary Island Pine |
| title_sort |
short note root restriction hindered early allometric differentiation between seedlings of two provenances of canary island pine |
| publishDate |
2008 |
| url |
http://hdl.handle.net/20.500.12792/5886 |
| work_keys_str_mv |
AT climentj shortnoterootrestrictionhinderedearlyallometricdifferentiationbetweenseedlingsoftwoprovenancesofcanaryislandpine AT alonsoj shortnoterootrestrictionhinderedearlyallometricdifferentiationbetweenseedlingsoftwoprovenancesofcanaryislandpine AT gill shortnoterootrestrictionhinderedearlyallometricdifferentiationbetweenseedlingsoftwoprovenancesofcanaryislandpine |
| _version_ |
1758005086754177024 |