Natural abundance of 15N in two cacao plantations with legume and non-legume shade trees
Natural abundance of 15N was sampled in young and mature leaves, branches, stem, and coarse roots of trees in a cacao (Theobroma cacao) plantation shaded by legume tree Inga edulis and scattered non-legumes, in a cacao plantation with mixed-species shade (legume Gliricidia sepium and several non-legumes), and in a tree hedgerow bordering the plantations in Guácimo, in the humid Caribbean lowlands of Costa Rica. The deviation of the sample 15N proportion from that of atmosphere (δ15N) was similar in non-legumes Cordia alliodora, Posoqueria latifolia, Rollinia pittieri, and T. cacao. Deep-rooted Hieronyma alchorneoides had lower δ15N than other non-N2-fixers, which probably reflected uptake from a partially different soil N pool. Gliricidia sepium had low δ15N. Inga edulis had high δ15N in leaves and branches but low in stem and coarse roots. The percentage of N fixed from atmosphere out of total tree N (%Nf) in G. sepium varied 56–74%; N2 fixation was more active in July (the rainiest season) than in March (the relatively dry season). The variation of δ15N between organs in I. edulis was probably associated to 15N fractionation in leaves. Stem and coarse root δ15N was assumed to reflect the actual ratio of N2 fixation to soil N uptake; stem-based estimates of %Nf in I. edulis were 48–63%. Theobroma cacao below I. edulis had lower δ15N than T. cacao below mixed-species shade, which may indicate direct N transfer from I. edulis to T. cacao but results so far were inconclusive. Further research should address the 15N fractionation in the studied species for improving the accuracy of the N transfer estimates. The δ15N appeared to vary according to ecophysiological characteristics of the trees.
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Berlín (Alemania): Springer,
2009
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| Subjects: | GLIRICIDIA SEPIUM, CORDIA ALLIODORA, CULTIVO ENTRE LINEAS, NITROGENO, PLANTAS DE SOMBRA, LEGUMINOSAS, |
| Online Access: | https://doi.org/10.1007/s10457-008-9160-3 |
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KOHA-OAI-BVE:1259882021-12-14T22:00:48ZNatural abundance of 15N in two cacao plantations with legume and non-legume shade trees 100025 Nygren, P. 85600 Leblanc, H.A. autores/as Berlín (Alemania): Springer,2009engpdfNatural abundance of 15N was sampled in young and mature leaves, branches, stem, and coarse roots of trees in a cacao (Theobroma cacao) plantation shaded by legume tree Inga edulis and scattered non-legumes, in a cacao plantation with mixed-species shade (legume Gliricidia sepium and several non-legumes), and in a tree hedgerow bordering the plantations in Guácimo, in the humid Caribbean lowlands of Costa Rica. The deviation of the sample 15N proportion from that of atmosphere (δ15N) was similar in non-legumes Cordia alliodora, Posoqueria latifolia, Rollinia pittieri, and T. cacao. Deep-rooted Hieronyma alchorneoides had lower δ15N than other non-N2-fixers, which probably reflected uptake from a partially different soil N pool. Gliricidia sepium had low δ15N. Inga edulis had high δ15N in leaves and branches but low in stem and coarse roots. The percentage of N fixed from atmosphere out of total tree N (%Nf) in G. sepium varied 56–74%; N2 fixation was more active in July (the rainiest season) than in March (the relatively dry season). The variation of δ15N between organs in I. edulis was probably associated to 15N fractionation in leaves. Stem and coarse root δ15N was assumed to reflect the actual ratio of N2 fixation to soil N uptake; stem-based estimates of %Nf in I. edulis were 48–63%. Theobroma cacao below I. edulis had lower δ15N than T. cacao below mixed-species shade, which may indicate direct N transfer from I. edulis to T. cacao but results so far were inconclusive. Further research should address the 15N fractionation in the studied species for improving the accuracy of the N transfer estimates. The δ15N appeared to vary according to ecophysiological characteristics of the trees.Incluye 42 referencias bibliográficas en las páginas 314-315Natural abundance of 15N was sampled in young and mature leaves, branches, stem, and coarse roots of trees in a cacao (Theobroma cacao) plantation shaded by legume tree Inga edulis and scattered non-legumes, in a cacao plantation with mixed-species shade (legume Gliricidia sepium and several non-legumes), and in a tree hedgerow bordering the plantations in Guácimo, in the humid Caribbean lowlands of Costa Rica. The deviation of the sample 15N proportion from that of atmosphere (δ15N) was similar in non-legumes Cordia alliodora, Posoqueria latifolia, Rollinia pittieri, and T. cacao. Deep-rooted Hieronyma alchorneoides had lower δ15N than other non-N2-fixers, which probably reflected uptake from a partially different soil N pool. Gliricidia sepium had low δ15N. Inga edulis had high δ15N in leaves and branches but low in stem and coarse roots. The percentage of N fixed from atmosphere out of total tree N (%Nf) in G. sepium varied 56–74%; N2 fixation was more active in July (the rainiest season) than in March (the relatively dry season). The variation of δ15N between organs in I. edulis was probably associated to 15N fractionation in leaves. Stem and coarse root δ15N was assumed to reflect the actual ratio of N2 fixation to soil N uptake; stem-based estimates of %Nf in I. edulis were 48–63%. Theobroma cacao below I. edulis had lower δ15N than T. cacao below mixed-species shade, which may indicate direct N transfer from I. edulis to T. cacao but results so far were inconclusive. Further research should address the 15N fractionation in the studied species for improving the accuracy of the N transfer estimates. The δ15N appeared to vary according to ecophysiological characteristics of the trees.GLIRICIDIA SEPIUMCORDIA ALLIODORACULTIVO ENTRE LINEASNITROGENOPLANTAS DE SOMBRALEGUMINOSASAgroforestry Systems (Países Bajos)https://doi.org/10.1007/s10457-008-9160-3 |
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GLIRICIDIA SEPIUM CORDIA ALLIODORA CULTIVO ENTRE LINEAS NITROGENO PLANTAS DE SOMBRA LEGUMINOSAS GLIRICIDIA SEPIUM CORDIA ALLIODORA CULTIVO ENTRE LINEAS NITROGENO PLANTAS DE SOMBRA LEGUMINOSAS |
| spellingShingle |
GLIRICIDIA SEPIUM CORDIA ALLIODORA CULTIVO ENTRE LINEAS NITROGENO PLANTAS DE SOMBRA LEGUMINOSAS GLIRICIDIA SEPIUM CORDIA ALLIODORA CULTIVO ENTRE LINEAS NITROGENO PLANTAS DE SOMBRA LEGUMINOSAS 100025 Nygren, P. 85600 Leblanc, H.A. autores/as Natural abundance of 15N in two cacao plantations with legume and non-legume shade trees |
| description |
Natural abundance of 15N was sampled in young and mature leaves, branches, stem, and coarse roots of trees in a cacao (Theobroma cacao) plantation shaded by legume tree Inga edulis and scattered non-legumes, in a cacao plantation with mixed-species shade (legume Gliricidia sepium and several non-legumes), and in a tree hedgerow bordering the plantations in Guácimo, in the humid Caribbean lowlands of Costa Rica. The deviation of the sample 15N proportion from that of atmosphere (δ15N) was similar in non-legumes Cordia alliodora, Posoqueria latifolia, Rollinia pittieri, and T. cacao. Deep-rooted Hieronyma alchorneoides had lower δ15N than other non-N2-fixers, which probably reflected uptake from a partially different soil N pool. Gliricidia sepium had low δ15N. Inga edulis had high δ15N in leaves and branches but low in stem and coarse roots. The percentage of N fixed from atmosphere out of total tree N (%Nf) in G. sepium varied 56–74%; N2 fixation was more active in July (the rainiest season) than in March (the relatively dry season). The variation of δ15N between organs in I. edulis was probably associated to 15N fractionation in leaves. Stem and coarse root δ15N was assumed to reflect the actual ratio of N2 fixation to soil N uptake; stem-based estimates of %Nf in I. edulis were 48–63%. Theobroma cacao below I. edulis had lower δ15N than T. cacao below mixed-species shade, which may indicate direct N transfer from I. edulis to T. cacao but results so far were inconclusive. Further research should address the 15N fractionation in the studied species for improving the accuracy of the N transfer estimates. The δ15N appeared to vary according to ecophysiological characteristics of the trees. |
| format |
|
| topic_facet |
GLIRICIDIA SEPIUM CORDIA ALLIODORA CULTIVO ENTRE LINEAS NITROGENO PLANTAS DE SOMBRA LEGUMINOSAS |
| author |
100025 Nygren, P. 85600 Leblanc, H.A. autores/as |
| author_facet |
100025 Nygren, P. 85600 Leblanc, H.A. autores/as |
| author_sort |
100025 Nygren, P. |
| title |
Natural abundance of 15N in two cacao plantations with legume and non-legume shade trees |
| title_short |
Natural abundance of 15N in two cacao plantations with legume and non-legume shade trees |
| title_full |
Natural abundance of 15N in two cacao plantations with legume and non-legume shade trees |
| title_fullStr |
Natural abundance of 15N in two cacao plantations with legume and non-legume shade trees |
| title_full_unstemmed |
Natural abundance of 15N in two cacao plantations with legume and non-legume shade trees |
| title_sort |
natural abundance of 15n in two cacao plantations with legume and non-legume shade trees |
| publisher |
Berlín (Alemania): Springer, |
| publishDate |
2009 |
| url |
https://doi.org/10.1007/s10457-008-9160-3 |
| work_keys_str_mv |
AT 100025nygrenp naturalabundanceof15nintwocacaoplantationswithlegumeandnonlegumeshadetrees AT 85600leblanchaautoresas naturalabundanceof15nintwocacaoplantationswithlegumeandnonlegumeshadetrees |
| _version_ |
1756064861403480065 |