Physiological Responses of Winged Bean [Psophocarpus Tetragonolobus (L.) Dc.] to Support Systems and Ratooning

Winged bean is an indeterminate, climbing, perennial legume that needs support to achieve high yields. The major constraint to large scale production of winged bean is the need for trellising which incurred an additional cost of production. After harvesting of young or mature pods plants can be c...

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Main Author: Rahman, Md. Motior
Format: Thesis
Language:English
English
Published: 1998
Online Access:http://psasir.upm.edu.my/id/eprint/10416/1/FP_1998_6_A.pdf
http://psasir.upm.edu.my/id/eprint/10416/
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Institution: Universiti Putra Malaysia
Language: English
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spelling my.upm.eprints.104162011-04-27T05:24:33Z http://psasir.upm.edu.my/id/eprint/10416/ Physiological Responses of Winged Bean [Psophocarpus Tetragonolobus (L.) Dc.] to Support Systems and Ratooning Rahman, Md. Motior Winged bean is an indeterminate, climbing, perennial legume that needs support to achieve high yields. The major constraint to large scale production of winged bean is the need for trellising which incurred an additional cost of production. After harvesting of young or mature pods plants can be cut and the pollarded root stock produces a ratoon crop. Ratooning, a new technique for seed production of winged bean, can reduce the initial expenditure on support structures. Therefore, these studies on the effects of support systems and ratooning on growth and seed production of winged bean were conducted under humid tropical field conditions to document some experimental evidence. Results from the first experiment revealed that when compared to unsupported control, support height of 1 and 2 m caused a significant increase in leaf area index (LAI), net photosynthesis, relative growth rate (RGR), nodule activity, solar radiation interception (SRI), pattern of dry matter accumulation and partitioning and consequently the seed yield of winged bean. Plants grown on a support height of2 m had enhanced leaf growth, pod number and total dry matter yield when compared to those on support height of Im and unsupported plants. In the subsequent experiment, the root stock of the main crop was cut off at 126, 140, 154 and 168 days after germination (DAG) and the ratooned crops maintained for the next two crop cycles (126 days/crop cycle). The results suggested that ratooning of winged bean at 126 or 140 DAG would lower the investment expenditure on support structures and produced the highest cumulative seed yield per unit area per unit time. 1998 Thesis NonPeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/10416/1/FP_1998_6_A.pdf Rahman, Md. Motior (1998) Physiological Responses of Winged Bean [Psophocarpus Tetragonolobus (L.) Dc.] to Support Systems and Ratooning. PhD thesis, Universiti Putra Malaysia. English
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
English
description Winged bean is an indeterminate, climbing, perennial legume that needs support to achieve high yields. The major constraint to large scale production of winged bean is the need for trellising which incurred an additional cost of production. After harvesting of young or mature pods plants can be cut and the pollarded root stock produces a ratoon crop. Ratooning, a new technique for seed production of winged bean, can reduce the initial expenditure on support structures. Therefore, these studies on the effects of support systems and ratooning on growth and seed production of winged bean were conducted under humid tropical field conditions to document some experimental evidence. Results from the first experiment revealed that when compared to unsupported control, support height of 1 and 2 m caused a significant increase in leaf area index (LAI), net photosynthesis, relative growth rate (RGR), nodule activity, solar radiation interception (SRI), pattern of dry matter accumulation and partitioning and consequently the seed yield of winged bean. Plants grown on a support height of2 m had enhanced leaf growth, pod number and total dry matter yield when compared to those on support height of Im and unsupported plants. In the subsequent experiment, the root stock of the main crop was cut off at 126, 140, 154 and 168 days after germination (DAG) and the ratooned crops maintained for the next two crop cycles (126 days/crop cycle). The results suggested that ratooning of winged bean at 126 or 140 DAG would lower the investment expenditure on support structures and produced the highest cumulative seed yield per unit area per unit time.
format Thesis
author Rahman, Md. Motior
spellingShingle Rahman, Md. Motior
Physiological Responses of Winged Bean [Psophocarpus Tetragonolobus (L.) Dc.] to Support Systems and Ratooning
author_facet Rahman, Md. Motior
author_sort Rahman, Md. Motior
title Physiological Responses of Winged Bean [Psophocarpus Tetragonolobus (L.) Dc.] to Support Systems and Ratooning
title_short Physiological Responses of Winged Bean [Psophocarpus Tetragonolobus (L.) Dc.] to Support Systems and Ratooning
title_full Physiological Responses of Winged Bean [Psophocarpus Tetragonolobus (L.) Dc.] to Support Systems and Ratooning
title_fullStr Physiological Responses of Winged Bean [Psophocarpus Tetragonolobus (L.) Dc.] to Support Systems and Ratooning
title_full_unstemmed Physiological Responses of Winged Bean [Psophocarpus Tetragonolobus (L.) Dc.] to Support Systems and Ratooning
title_sort physiological responses of winged bean [psophocarpus tetragonolobus (l.) dc.] to support systems and ratooning
publishDate 1998
url http://psasir.upm.edu.my/id/eprint/10416/1/FP_1998_6_A.pdf
http://psasir.upm.edu.my/id/eprint/10416/
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