Effects of herbicide application and phosphorous fertilization on forage production and plant density of abandoned lands planted with pasture legumes

Mashece , Wandile

Title: Effects of herbicide application and phosphorous fertilization on forage production and plant density of abandoned lands planted with pasture legumes
Creator: Mashece , Wandile
Subject: Forage plants Grazing
Date Issued: 2019
Date: 2019
Type: Thesis
Type: Masters
Type: MSc (Pasture Science)
Identifier: http://hdl.handle.net/10353/11950
Identifier: vital:39121
Description: The study was conducted in two communal abandoned grazing lands, namely; Sinqumeni and Kubedlana (referred hereafter as sites) located in the Eastern Cape Province (ECP) where legume pastures have been successfully established for the last ten years. The objectives of the study were to investigate the effects of five different herbicide treatments and four different phosphorus fertilizer application rates on forage production and plant density of abandoned lands. At each site, an area previously planted with legume species and well established with an even stand of legumes were selected. For both experimental sites, experimental design consisted of plot size of 50 m × 50 m for herbicide plot and 25 m ×25 m for phosphorus plot with 5 m×10 m of sub-plot planted with an even stand of pasture legumes arranged in a randomised complete block design (RCBD) in two blocks. The legumes that were planted in these sites were: Lotus corniculatus, White clover, Arrow leaf clover, Yellow serradella, Pitman serradella, Biserrula and Lespedeza cuneata. Prior to planting, the legume seeds were mixed with the appropriate inoculant by hand. Planting was done by over sowing legumes into the natural pastures (grasses) using an Aitchison Mini seeder. In each small plot, data was collected on forage biomass and plant density (species count). Data was analysed using the SAS programme and the significance of differences between means were tested with Fisher’s test for the LSD. On herbicide study, results showed that there were no significant (p > 0.05) difference in forage dry matter (DM) among the herbicide treatments in both years at Kubedlana. Results further showed that all five herbicides did not significantly (p > 0.05) increase the DM yield over control treatment. At Sinqumeni, results displayed no significant (p > 0.05) difference in forage DM among treatments during year 1, whereas in year 2, but all herbicide treatments except Haloxyfop-R methyl & Bendioxide (HBE) yielded greater (p < 0.05) DM yield than the control treatment. Comparing years, forage DM yield only under Bendioxide (BEN) and Paraquat (PAR) treatments had greater DM yield in year 2 than years 1. In Kubedlana, Bendioxide (BEN) and Haloxyfop-R methyl (HAL) treatments showed an IV increase in total density (TD), whereas Glyphosate (GLY) produced the lowest total density (TD) and Paraquat (PAR) and Haloxyfop-R methyl (HAL) resulted in an increased in density of total legumes (TL) relative to control treatment. There was a decline (p < 0.05) in the densities of total plants and forbs from year 1 to year 2. In Sinqumeni, herbicide applications resulted in higher density of total legumes than the control treatment, but results varied among herbicide treatments, greatest density being obtained at Haloxyfop-R methyl & Bendioxide (HBE) and Haloxyfop-R methyl (HAL) treatments. On phosphorus study, result showed a significant (p < 0.05) differences in dry matter (DM) yield among Phosphorus (P) treatments during year 2 of the study at Kubedlana site. All P treatments showed significantly greater dry matter (DM) yield in forage harvested in year 2 compared to year 1. At Sinqumeni, results showed Phosphorus (P) application did not have significance (p > 0.05) effect on forage dry matter (DM) yield on both years. In Kubedlana, there were indications of increased densities of total grasses, legumes and total plants in response to some levels of phosphorus (P) treatments. Treatment Phosphorus at 20 kg ha-1 (P20) yielded the highest total density (TD) and total legumes (TL) numbers and P10 had the lowest total density (TD). Both treatment and year interacted significantly (p < 0.05) to influence the mean density of some plant variables. At Sinqumeni, there were no significant differences due to phosphorus (P) treatments in the densities of total plants, grasses and forbs. Both years interacted significantly (p < 0.05) with treatments to influence the plant density mean, with Lespedeza cuneate (LESP) producing the highest plant density during year 1 and year 2, whereas BSERRL produced the lowest plant density during year 1 and year 2 periods. Therefore, findings of this study suggest that application of both Bendioxide (BEN) & Haloxyfop-R methyl & Bendioxide (HBE) treatments result in a decrease in dry matter (DM) yield, whereas Glyphosate (GLY) herbicide resulted in a decrease in both total density (TD) and total legumes (TL) and Haloxyfop-R methyl (HAL) herbicide application resulted in an increase of total density (TD) and total legumes (TL) V relative to control plot. On phosphorus study, results suggest that at Phosphorus at 40 kg ha-1 (P40) fertilization dry matter (DM) yield will be increased and at both Phosphorus at 20 kg ha1 (P20) and Phosphorus at 40 kg ha-1 (P40) high total density (TD) will be recorded where’s Phosphorus at 20 kg ha-1 (P20) fertilization result in high total legumes (TL).
Format: 103 leaves
Format: pdf
Publisher: University of Fort Hare
Publisher: Faculty of Science and Agriculture
Language: English
Rights: University of Fort Hare

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