Establishment of ‘Tifton 9’ Bahiagrass in Response to Planting Date and Seed Coat Removal

Establishment of ‘Tifton 9’ Bahiagrass in Response to Planting Date and Seed Coat Removal

Stands of ‘Tifton 9’, like those of other bahiagrasses (Paspalum notatum Flügge var. saurae Parodi), develop slowly. Our objectives were to determine seedling emergence and stand establishment responses to planting date and mechanical seed coat removal using greenhouse and field plantings. Seed dehu...

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Bibliographic Details
Published in:Agronomy journal Vol. 90; no. 4; pp. 462 - 465
Main Authors: Gates, Roger N., Dewald, Chester L.
Format: Journal Article
Language:English
Published: Madison, WI American Society of Agronomy 01-07-1998
Subjects:
Agronomy. Soil science and plant productions
Biological and medical sciences
Fundamental and applied biological sciences. Psychology
General agronomy. Plant production
Sowing and planting
Vegetative propagation. Sowing and planting. Harvesting
Georgia
United States
North America
America
Crop establishment
Monocotyledones
Tegument
Scarification
Seed treatment
Sowing date
Seeding
Field experiment
Gramineae
Agronomy
Paspalum notatum
Seed
Angiospermae
Spermatophyta
Fodder crop
Greenhouse study
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Summary:Stands of ‘Tifton 9’, like those of other bahiagrasses (Paspalum notatum Flügge var. saurae Parodi), develop slowly. Our objectives were to determine seedling emergence and stand establishment responses to planting date and mechanical seed coat removal using greenhouse and field plantings. Seed dehulled by acceleration in an airstream to hit a metal plate (7.8 kg ha−1) or whole seed (11.2 kg ha−1) was planted at equivalent rates in five blocks of a randomized complete block design on seven biweekly planting dates from 9 March through 1 June in 1994 and 1995 at both a droughty upland site (Dothan loamy sand: fine‐loamy, siliceous, thermic Plinthic Kandiudults) and a lowland site (Alapaha sand: loamy, siliceous, thermic Arenic Plinthic Paleaquults) near Tifton, GA (31°26′ N, 83°35′ W), to observe emergence and establishment. Spring and fall plant counts and final stand ratings of percent bahiagrass occurrence were used to evaluate emergence and establishment. Emergence 7 d after greenhouse planting of dehulled seed (18.3%) was greater (P < 0.01) than whole seed (0.7%). Emergence at 28 d after planting was not different (36.2%) between seed treatments. Mean surface (0 to 50 mm) soil moisture content at the lowland site (58 g kg−1) was higher than the upland site (28 g kg−1). Seedling heights, measured in June 1994, spring seedling number in both years, and 1995 fall plant numbers were often higher with earlier planting date. No differences in final stand (% occurrence) could be attributed to planting date. Final stand ratings were greater (P < 0.05) at the lowland (84%) than at the upland site (79%), and greater (P < 0.05) for whole than for dehulled seed in 1994, but no differences were observed in 1995. Development of Tifton 9 bahiagrass stands at these Coastal Plain sites was slow, but relatively insensitive to differences in spring or early summer planting date. Dehulled seed emerged more rapidly, but this provided no sustained advantage in stand establishment in these environments.
ISSN:0002-1962
1435-0645
DOI:10.2134/agronj1998.00021962009000040003x