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Author : Sarah Elizabeth Haymaker
Release : 2002
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Kind : eBook
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Book Synopsis Optimum Planting Dates and Populations of Three Soybean Maturity Groups for Oklahoma Production by : Sarah Elizabeth Haymaker
Download or read book Optimum Planting Dates and Populations of Three Soybean Maturity Groups for Oklahoma Production written by Sarah Elizabeth Haymaker. This book was released on 2002. Available in PDF, EPUB and Kindle. Book excerpt:
Author : Alexandre Stefani Barreiro
Release : 2011
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Book Synopsis Soybean Yield and Yield Components as Affected by Planting Date and Maturity Group in Oklahoma by : Alexandre Stefani Barreiro
Download or read book Soybean Yield and Yield Components as Affected by Planting Date and Maturity Group in Oklahoma written by Alexandre Stefani Barreiro. This book was released on 2011. Available in PDF, EPUB and Kindle. Book excerpt:
Author : Ahmet Eren
Release : 1996
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Kind : eBook
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Book Synopsis Effect on Seed Yield and Maturity of Soybean Maturity Group and Planting Date by : Ahmet Eren
Download or read book Effect on Seed Yield and Maturity of Soybean Maturity Group and Planting Date written by Ahmet Eren. This book was released on 1996. Available in PDF, EPUB and Kindle. Book excerpt:
Author : Alexandre Stefani Barreiro
Release : 2014
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Kind : eBook
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Book Synopsis Increasing Yield of Late-planted Soybean Through Management Practices in the Southern Great Plains by : Alexandre Stefani Barreiro
Download or read book Increasing Yield of Late-planted Soybean Through Management Practices in the Southern Great Plains written by Alexandre Stefani Barreiro. This book was released on 2014. Available in PDF, EPUB and Kindle. Book excerpt: Increased soybean commodity prices and high-yielding cultivars have instigated producers to expand soybean production outside traditional regions. Introduction of soybean to relatively new areas such as the Southern Great Plains, has created the need for management practices unique to the region to exploit full yield potential in these environments. Oklahoma soybean production, for instance, frequently results in low yields due its adverse environmental conditions, along with common late-plantings, as a double crop following wheat harvest. Due to soybean photoperiod sensitivity, delayed planting leads to a shortened vegetative growth period, which potentially reduces seed yield. The influence of management practices, such as seeding rate, row spacing, maturity group selection, starter and foliar fertilization, irrigation, and the use of long juvenile soybean lines, on late-planted soybean yields has not yet been evaluated in the Southern Great Plains. The objectives of this study are to evaluate the effect of these specific management strategies on late-planted soybean yields and their potential adoption in the Southern Great Plains to minimize yield losses in these late production systems. Four different field studies were established on late plantings in Oklahoma as followed by numbers 1, 2, 3, and 4: 1) Four seeding rates ranging from 198,000 to 383,000 seeds ha-1, three row spacings (19, 38, and 76 cm) and two maturity groups (4.8 and 5.6) under rainfed conditions. Seed yield, plant population, canopy cover, and partial economic return were analyzed. Seed yield was not affected by seeding density, but yield results for 38 and 76 cm row spacings showed slight advantage to 19 cm rows. Partial economic return of 38 and 76 cm rows ranged from 13 to 25% greater than 19 cm row spacing, with the greatest returns at the lowest seeding densities. 2) Three soybean lines from maturity group (MG) 6, 7, and 8 carrying the long juvenile trait (LJ) were compared to three high-yielding varieties from MG 3, 4, and 5, in four planting dates from late-May to late-June. Vegetative growth period, canopy cover, seed yield, and seed quality were evaluated. Long juvenile soybean lines had greater growth but similar yields compared to non LJ varieties, due to the extended growth period overlapping early reproductive stages diminishing seed production potential. 3) Fertilization strategies including two starter and four foliar treatments were compared to a control treatment with no fertilizer applied. Starter or foliar treatments resulted in no seed yield differences compared to control treatment. 4) Soybean from MGs 4.8 and 5.6 were sown in 19 and 76 cm row spacings at three seeding rates (247,000, 346,000, and 445,000 seeds ha-1 were tested under irrigated conditions and seed yield evaluated. Seed yield of late-planted soybean under irrigation was affected only by MG. Seeding rate and row spacing had no effect on yield. Average yield of MG 4.8, across row spacings and years was 2620 kg ha−1, which was 25 % greater than MG 5.6 yield (1980 kg ha−1).
Author : Adam Paul Gaspar
Release : 2016
Genre :
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Book Synopsis Planting Date and Maturity Group Selection to Maximize Soybean Yield and Subsequent Dry Matter and Nutrient Uptake, Partitioning, and Removal by : Adam Paul Gaspar
Download or read book Planting Date and Maturity Group Selection to Maximize Soybean Yield and Subsequent Dry Matter and Nutrient Uptake, Partitioning, and Removal written by Adam Paul Gaspar. This book was released on 2016. Available in PDF, EPUB and Kindle. Book excerpt: As soybeans have become a major U.S. crop and key component in different cropping systems over the past half century, advancements in breeding and production practices have shown gains in yield and economic profitability for producers. Important production considerations included soil fertility, proper maturity group (MG) selection, and planting date. In southern Wisconsin, maximum yields are reduced by 21.2 kg ha-1 day-1 after May 10th (Gaspar and Conley, 2015). Growers have realized this effect and gradually shifted their soybean planting earlier. However, some believe that while producers are planting earlier and experiencing a longer growing season, they have not adequately adjusted their soybean MG's. Coincident with earlier planting dates is the increased risk of sub-optimal stands and the need for replanting some years. Proper replanting methods (fill-in) and optimal final plant stands (>247,000 plants ha-1) have been determined by Gaspar and Conley (2015) but again, the proper MG to use in replant or essentially late planting scenarios to maximize yield and avoid fall frost damage is unclear. This document provides data demonstrating the importance of MG selection and the negative impact of delayed planting in the Northern Corn Belt. Economically and environmentally sustainable soil fertility programs are a necessity for modern soybean production systems. Unfortunately, soybean nutrient uptake and partitioning models are primarily built from work conducted in the early 1960's with obsolete soybean genetics and production practices (Hanway and Weber, 1971a; Hanway and Weber, 1971b). Since the 1960's, yields have nearly doubled to 2906 kg ha-1 in 2013 (USDA-NASS, 2014b) and soybean physiology has been altered with approximately one additional week of reproductive growth (Rowntree et al., 2014) and greater harvest index's (HI) (Kumudini et al., 2001) for currently cultivated varieties. More precise and accurate estimates have the potential to increase grower profitability by applying only what the crop needs while possibly decreasing the environmental impact in terms of nutrient loads in the Mississippi watershed, which accounts for more than 90% of all US soybean acres (USDA-ERS, 2014). This document highlights large changes in nutrient uptake, partitioning, and removal of current soybean genetics and production practices.
