Application of the pipe model theory to non-destructive estimation of leaf biomass and leaf area of pruned agroforestry trees

Application of the pipe model theory to non-destructive estimation of leaf biomass and leaf area of pruned agroforestry trees

The relationship of branch cross sectional area (CS) to leaf biomass (LM) and leaf area (LA) was studied in three agroforestry tree species, Calliandra calothyrsus Maissn., Erythrina berteroana Urban and Erythrina poeppigiana (Walpers) O.F. Cook, to develop a non-destructive method for the estimation of LM and LA for trees managed with periodic pruning. Variation in these relationships was observed according to the bifurcation level and, in the Erythrina spp., by clone. All the relationships were linear except the CS-LM relation in small branches of E. poeppigiana, where it was initially exponential. At main branch level the relationship of CS to LM and LA was linear in all cases but the regression parameter values varied between species and clones, with ratio of main branch CS to LM and LA can be used for non-destructive estimation of the latter variables. The method has the additional benefit that the regression parameter value reflects the allocation of dry matter within a tree and, consequently, may give indications about its possible uses in different agroforestry systems.

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Main Authors: 100025 Nygren, P., 109534 Rebottaro, S.L., 56760 Chavarría S, M.R.
Format: biblioteca
Published: 1993
Subjects:CALLIANDRA CALOTHYRSUS, ERYTHRINA BERTEROANA, ERYTHRINA POEPPIGIANA, BIOMASA, RAMAS, INVESTIGACION, SISTEMAS AGROSILVOPASTORILES, COSTA RICA,
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id KOHA-OAI-BVE:57003
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spelling KOHA-OAI-BVE:570032020-02-07T06:30:38ZApplication of the pipe model theory to non-destructive estimation of leaf biomass and leaf area of pruned agroforestry trees 100025 Nygren, P. 109534 Rebottaro, S.L. 56760 Chavarría S, M.R. 1993The relationship of branch cross sectional area (CS) to leaf biomass (LM) and leaf area (LA) was studied in three agroforestry tree species, Calliandra calothyrsus Maissn., Erythrina berteroana Urban and Erythrina poeppigiana (Walpers) O.F. Cook, to develop a non-destructive method for the estimation of LM and LA for trees managed with periodic pruning. Variation in these relationships was observed according to the bifurcation level and, in the Erythrina spp., by clone. All the relationships were linear except the CS-LM relation in small branches of E. poeppigiana, where it was initially exponential. At main branch level the relationship of CS to LM and LA was linear in all cases but the regression parameter values varied between species and clones, with ratio of main branch CS to LM and LA can be used for non-destructive estimation of the latter variables. The method has the additional benefit that the regression parameter value reflects the allocation of dry matter within a tree and, consequently, may give indications about its possible uses in different agroforestry systems.The relationship of branch cross sectional area (CS) to leaf biomass (LM) and leaf area (LA) was studied in three agroforestry tree species, Calliandra calothyrsus Maissn., Erythrina berteroana Urban and Erythrina poeppigiana (Walpers) O.F. Cook, to develop a non-destructive method for the estimation of LM and LA for trees managed with periodic pruning. Variation in these relationships was observed according to the bifurcation level and, in the Erythrina spp., by clone. All the relationships were linear except the CS-LM relation in small branches of E. poeppigiana, where it was initially exponential. At main branch level the relationship of CS to LM and LA was linear in all cases but the regression parameter values varied between species and clones, with ratio of main branch CS to LM and LA can be used for non-destructive estimation of the latter variables. The method has the additional benefit that the regression parameter value reflects the allocation of dry matter within a tree and, consequently, may give indications about its possible uses in different agroforestry systems.CALLIANDRA CALOTHYRSUSERYTHRINA BERTEROANAERYTHRINA POEPPIGIANABIOMASARAMASINVESTIGACIONSISTEMAS AGROSILVOPASTORILESCOSTA RICAAgroforestry Systems (RU)
institution IICA
collection Koha
country Costa Rica
countrycode CR
component Bibliográfico
access En linea
databasecode cat-sibiica
tag biblioteca
region America Central
libraryname Sistema de Bibliotecas IICA/CATIE
topic CALLIANDRA CALOTHYRSUS
ERYTHRINA BERTEROANA
ERYTHRINA POEPPIGIANA
BIOMASA
RAMAS
INVESTIGACION
SISTEMAS AGROSILVOPASTORILES
COSTA RICA
CALLIANDRA CALOTHYRSUS
ERYTHRINA BERTEROANA
ERYTHRINA POEPPIGIANA
BIOMASA
RAMAS
INVESTIGACION
SISTEMAS AGROSILVOPASTORILES
COSTA RICA
spellingShingle CALLIANDRA CALOTHYRSUS
ERYTHRINA BERTEROANA
ERYTHRINA POEPPIGIANA
BIOMASA
RAMAS
INVESTIGACION
SISTEMAS AGROSILVOPASTORILES
COSTA RICA
CALLIANDRA CALOTHYRSUS
ERYTHRINA BERTEROANA
ERYTHRINA POEPPIGIANA
BIOMASA
RAMAS
INVESTIGACION
SISTEMAS AGROSILVOPASTORILES
COSTA RICA
100025 Nygren, P.
109534 Rebottaro, S.L.
56760 Chavarría S, M.R.
Application of the pipe model theory to non-destructive estimation of leaf biomass and leaf area of pruned agroforestry trees
description The relationship of branch cross sectional area (CS) to leaf biomass (LM) and leaf area (LA) was studied in three agroforestry tree species, Calliandra calothyrsus Maissn., Erythrina berteroana Urban and Erythrina poeppigiana (Walpers) O.F. Cook, to develop a non-destructive method for the estimation of LM and LA for trees managed with periodic pruning. Variation in these relationships was observed according to the bifurcation level and, in the Erythrina spp., by clone. All the relationships were linear except the CS-LM relation in small branches of E. poeppigiana, where it was initially exponential. At main branch level the relationship of CS to LM and LA was linear in all cases but the regression parameter values varied between species and clones, with ratio of main branch CS to LM and LA can be used for non-destructive estimation of the latter variables. The method has the additional benefit that the regression parameter value reflects the allocation of dry matter within a tree and, consequently, may give indications about its possible uses in different agroforestry systems.
format
topic_facet CALLIANDRA CALOTHYRSUS
ERYTHRINA BERTEROANA
ERYTHRINA POEPPIGIANA
BIOMASA
RAMAS
INVESTIGACION
SISTEMAS AGROSILVOPASTORILES
COSTA RICA
author 100025 Nygren, P.
109534 Rebottaro, S.L.
56760 Chavarría S, M.R.
author_facet 100025 Nygren, P.
109534 Rebottaro, S.L.
56760 Chavarría S, M.R.
author_sort 100025 Nygren, P.
title Application of the pipe model theory to non-destructive estimation of leaf biomass and leaf area of pruned agroforestry trees
title_short Application of the pipe model theory to non-destructive estimation of leaf biomass and leaf area of pruned agroforestry trees
title_full Application of the pipe model theory to non-destructive estimation of leaf biomass and leaf area of pruned agroforestry trees
title_fullStr Application of the pipe model theory to non-destructive estimation of leaf biomass and leaf area of pruned agroforestry trees
title_full_unstemmed Application of the pipe model theory to non-destructive estimation of leaf biomass and leaf area of pruned agroforestry trees
title_sort application of the pipe model theory to non-destructive estimation of leaf biomass and leaf area of pruned agroforestry trees
publishDate 1993
work_keys_str_mv AT 100025nygrenp applicationofthepipemodeltheorytonondestructiveestimationofleafbiomassandleafareaofprunedagroforestrytrees
AT 109534rebottarosl applicationofthepipemodeltheorytonondestructiveestimationofleafbiomassandleafareaofprunedagroforestrytrees
AT 56760chavarriasmr applicationofthepipemodeltheorytonondestructiveestimationofleafbiomassandleafareaofprunedagroforestrytrees
_version_ 1756055562195304448

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