Agro-physiological adaptation and nitrogen fixation of soybean Glycine max L. varieties to three flooding regimes and growth stages / Khin San Nwe ; Oscar B. Zamora, chair, advisory committee.

Date

4-2011

Abstract

Two experiments were conducted, one pot experiment at the Crop Science Cluster, the University of the Philippines Los Baños (UPLB) from May to September 2009 and one field experiment at the Central Experiment Station (CES), (UPLB) from January to May 2010 to determine the physiological, morphological and agronomic responses of twelve soybean varieties to flooding stress and to evaluate the sensitivity of biomass accumulation, N2 fixation and yield reduction due to flood duration at different growth stages among three varieties. Three days flooding at vegetative stage reduced the functional leaf area, leaf area ratio, net assimilation ratio at flowering stage and total dry matter yield at both flowering and pod setting stages in the pot experiment. Three day flooding at vegetative and reproductive stages also reduced the RGR. However specific leaf weight and root volume increased at 3 days flooding at vegetative stage. Grain yield per plant increased when flooded for 1 day at pod setting stage as compared to control. It was reduced when there was flooding for 3 days which was not significantly different from the control. Path coefficient analysis showed that higher soybean grain yield for 1 day flooding than control was due to significant distribution of numbers of pod per plant-and seed per pod. Among the 12 varieties tested, IPB Sy 96-27-21 was the most resistant variety with highest grain yield due to higher hundred seed weight, seed per pod, and high physiological parameters: leaf area, leaf area ratio, net assimilation rate and total dry matter yield. The second most and intermediate resistant varieties were Tiwala 8 and Tiwala 10 respectively. NSIC- Sy-9 was the susceptible variety due to poor grain yield, seed per pod, functional leaf area and filled pods per plant. In the field experiment 3 day flooding reduced functional leaf area (FLA) and leaf area index (LAI) at pod setting stage. One day flooding had the highest FLA and LAI. There was no reduction in total dry matter yield, nitrogen fixation, grain yield per plant and grain yield per hectare due to flooding at 1 and at 3 days. Among the varieties, Tiwala 8 had the highest total dry matter yield (TDM) at three growth stages while Tiwala 10 had the lowest. NISC- Sy-9 had the highest nitrogen fixation for both flowering and pod setting stages while Tiwala 9 for only vegetative stage. Flooding for 1 day at flowering stage significantly increased grain yield per hectare by 17% compared with the control. At pod setting stage, flooding for 3 days significantly reduced grain yield by 16% compared with the control. However, it was not significantly different with that for control at vegetative and flowering stages. Path coefficient analysis revealed that there was no yield component that positively and significantly contribute to higher grain yield but % nitrogen fixation had positive and high significant correlation for control at pod setting stage and in turn positively and indirectly affected grain yield via its effect in hundred seed weight.

Document Type

Master Thesis

Degree

Doctor of Philosophy in Agronomy

College

Graduate School (GS)

Adviser/Committee Chair

Oscar B. Zamora

Committee Member

Oscar B. Zamora, Pompe C. Sta. Cruz, Jose E. Hernandez, Reynaldo A. Comia

Language

English

LC Subject

Soybean, Agronomy Crop Science Cluster

Location

UPLB Main Library Special Collections Section (USCS)

Call Number

LG 996 2011 A42 N84

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