Nitrogen and carbon translocation and distribution in curcuma alismatifolia gagnep. by labelling experiment with 15N and 13C

Nitrogen and carbon translocation and distribution in curcuma alismatifolia gagnep. by labelling experiment with 15N and 13C

Curcuma alismatifolia Gagnep. rhizomes were planted on 15 May 2007. At 10 weeks after planting, at the termination of the new leaf formation stage, the plants were supplied with 15N-labeled culture solution (3.81 mM NH4+ + 8.96 mM NO3-: 10.6 atom% 15N) twice at 3 and 1 days before 13CO2 feeding. The...

Full description

Saved in:
Bibliographic Details
Main Authors: Khuankaew T., Ito S., Ohtake N., Sueyoshi K., Ohyama T., Sato T., Ruamrungsri S.
Other Authors: Ende J.E.Nijs A.P.M.Krikke A.T.
Format: Article
Language:English
Published: 2014
Online Access:http://www.scopus.com/inward/record.url?eid=2-s2.0-80053248570&partnerID=40&md5=d22c69d7f031389be66c45ffdfaba7e0
http://cmuir.cmu.ac.th/handle/6653943832/494
Tags: Add Tag
No Tags, Be the first to tag this record!
Institution: Chiang Mai University
Language: English
id th-cmuir.6653943832-494
record_format dspace
spelling th-cmuir.6653943832-4942014-08-29T07:31:50Z Nitrogen and carbon translocation and distribution in curcuma alismatifolia gagnep. by labelling experiment with 15N and 13C Khuankaew T. Ito S. Ohtake N. Sueyoshi K. Ohyama T. Sato T. Ruamrungsri S. Ende J.E.Nijs A.P.M.Krikke A.T. Curcuma alismatifolia Gagnep. rhizomes were planted on 15 May 2007. At 10 weeks after planting, at the termination of the new leaf formation stage, the plants were supplied with 15N-labeled culture solution (3.81 mM NH4+ + 8.96 mM NO3-: 10.6 atom% 15N) twice at 3 and 1 days before 13CO2 feeding. Then 13C-labeled 13CO2 (99 atom% 13C) was exposed to the shoot. The plants were harvested at four different stages of growth. The 15N and 13C abundance in each part were determined to investigate the characteristics of N and C translocation and distribution in curcuma. The total dry weights of the plant increased continuously during the termination of the new leaf formation stage (stage 1), the flowering stage (stage 2) and the rhizome storage period (stage 3) and especially rapidly increased during stage 2 to stage 3. The DW was relatively constant thereafter until the start of the dormancy period (stage 4). The total N content of the plant rapidly increased after stage 2 until stage 4. At stage 1, the total N was distributed mostly to the old storage roots, leaves and old rhizome just as the dry weight. At stage 2, the dry weights of new organs were mostly increased as well as the N content. At stage 3 and stage 4, the total N content of the new storage organs (new rhizomes and new storage roots) was highly increased, particularly in the new rhizome. The old rhizome and the old storage roots gave very low 15N and 13C in abundance. At stage 1, leaves are the main N sink and about 5.17 mg labeled N (LN) assimilated to this organ. In this stage, translocation of the newly assimilated N to the new rhizome already started. At stage 2, the distribution of LN was increased in flower and flower stalk but it was less than in the leaves that are also the main sink of N organ. At stage 3 the distribution of LN to the aboveground part organs (leaves, flowers and flower stalks) was decreased. This contrasted to the underground part organs (new rhizome, new storage roots and fibrous roots) where LN increased especially in the new rhizome. At stage 4, the 15N was mostly distributed to the storage organ (new rhizome and new storage roots) about 8.85 mg LN and 3.59 mg LN, respectively. 2014-08-29T07:31:50Z 2014-08-29T07:31:50Z 2011 Article 9.78907E+12 5677572 http://www.scopus.com/inward/record.url?eid=2-s2.0-80053248570&partnerID=40&md5=d22c69d7f031389be66c45ffdfaba7e0 http://cmuir.cmu.ac.th/handle/6653943832/494 English
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
language English
description Curcuma alismatifolia Gagnep. rhizomes were planted on 15 May 2007. At 10 weeks after planting, at the termination of the new leaf formation stage, the plants were supplied with 15N-labeled culture solution (3.81 mM NH4+ + 8.96 mM NO3-: 10.6 atom% 15N) twice at 3 and 1 days before 13CO2 feeding. Then 13C-labeled 13CO2 (99 atom% 13C) was exposed to the shoot. The plants were harvested at four different stages of growth. The 15N and 13C abundance in each part were determined to investigate the characteristics of N and C translocation and distribution in curcuma. The total dry weights of the plant increased continuously during the termination of the new leaf formation stage (stage 1), the flowering stage (stage 2) and the rhizome storage period (stage 3) and especially rapidly increased during stage 2 to stage 3. The DW was relatively constant thereafter until the start of the dormancy period (stage 4). The total N content of the plant rapidly increased after stage 2 until stage 4. At stage 1, the total N was distributed mostly to the old storage roots, leaves and old rhizome just as the dry weight. At stage 2, the dry weights of new organs were mostly increased as well as the N content. At stage 3 and stage 4, the total N content of the new storage organs (new rhizomes and new storage roots) was highly increased, particularly in the new rhizome. The old rhizome and the old storage roots gave very low 15N and 13C in abundance. At stage 1, leaves are the main N sink and about 5.17 mg labeled N (LN) assimilated to this organ. In this stage, translocation of the newly assimilated N to the new rhizome already started. At stage 2, the distribution of LN was increased in flower and flower stalk but it was less than in the leaves that are also the main sink of N organ. At stage 3 the distribution of LN to the aboveground part organs (leaves, flowers and flower stalks) was decreased. This contrasted to the underground part organs (new rhizome, new storage roots and fibrous roots) where LN increased especially in the new rhizome. At stage 4, the 15N was mostly distributed to the storage organ (new rhizome and new storage roots) about 8.85 mg LN and 3.59 mg LN, respectively.
author2 Ende J.E.Nijs A.P.M.Krikke A.T.
author_facet Ende J.E.Nijs A.P.M.Krikke A.T.
Khuankaew T.
Ito S.
Ohtake N.
Sueyoshi K.
Ohyama T.
Sato T.
Ruamrungsri S.
format Article
author Khuankaew T.
Ito S.
Ohtake N.
Sueyoshi K.
Ohyama T.
Sato T.
Ruamrungsri S.
spellingShingle Khuankaew T.
Ito S.
Ohtake N.
Sueyoshi K.
Ohyama T.
Sato T.
Ruamrungsri S.
Nitrogen and carbon translocation and distribution in curcuma alismatifolia gagnep. by labelling experiment with 15N and 13C
author_sort Khuankaew T.
title Nitrogen and carbon translocation and distribution in curcuma alismatifolia gagnep. by labelling experiment with 15N and 13C
title_short Nitrogen and carbon translocation and distribution in curcuma alismatifolia gagnep. by labelling experiment with 15N and 13C
title_full Nitrogen and carbon translocation and distribution in curcuma alismatifolia gagnep. by labelling experiment with 15N and 13C
title_fullStr Nitrogen and carbon translocation and distribution in curcuma alismatifolia gagnep. by labelling experiment with 15N and 13C
title_full_unstemmed Nitrogen and carbon translocation and distribution in curcuma alismatifolia gagnep. by labelling experiment with 15N and 13C
title_sort nitrogen and carbon translocation and distribution in curcuma alismatifolia gagnep. by labelling experiment with 15n and 13c
publishDate 2014
url http://www.scopus.com/inward/record.url?eid=2-s2.0-80053248570&partnerID=40&md5=d22c69d7f031389be66c45ffdfaba7e0
http://cmuir.cmu.ac.th/handle/6653943832/494
_version_ 1681419493735137280

Similar Items