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Nodes above white flower and heat units as indicators of harvest aid timingBynum, Joshua Brian 29 August 2005 (has links)
The timing of harvest aid application on cotton (Gossypium hirsutum L.) is
critical, and poses potential problems when mistimed. The consequences of premature
harvest aid application could result in reduced profit to the grower through the need for
additional applications, reduced lint yield, poor fiber quality, and/or delayed harvest. A
delayed application of harvest aid materials may also reduce lint yield and fiber quality
if late season inclement weather patterns are established.
Currently, there are many methods utilized for determining application of harvest
aid materials. One method utilizes accumulated heat units, or growing degree days (HU
or DD60??s), following plant physiological maturity. Physiological maturity (cutout) is
identified as nodes above white flower equals 5 (NAWF=5). This method triggers the
application of harvest aid chemicals when 850 HU have been accumulated beyond
cutout. Due to differing environmental and edaphic characteristics across the Cotton
Belt, application of harvest aid chemicals at this time may be premature in terms of
optimizing lint yield and fiber quality.
A two-year study was established to determine the proper timing of harvest aid
application for picker harvested cotton in south central Texas. The design utilized a
split-plot with four replications. The main plots consisted of three nodal positions(NAWF=3, 4, and 5), and the subplots were five HU accumulations (650, 750, 850, 950,
and 1050) that corresponded to each of the nodal positions. In both years, lint yields
increased with an increase in HU accumulation. Greater yields were achieved when HU
accumulation was initiated after NAWF = 4. This two-year study indicates that harvest
aid applications made at NAWF = 4 plus 1050 HU would optimize yield potential for
picker harvested cotton in south central Texas.
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The Relationship Between Yield, Price, Planted Acres and Heat Units in Cochise CountyTaylor, B. B., Hitz, T., Malcuit, J. E. 02 1900 (has links)
No description available.
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Cotton Planting Date and Planting RateKittock, D. L., Taylor, B. B., Cluff, R., Thatcher, M. 02 1900 (has links)
DPL 41 and Pima S-5 cotton were planted at low, medium, and high planting rates on April 12, April 27, and May 10 on the Safford Experimental Farm in 1983. Heavy rains in late September and early October reduced lint yields. Pima S-5 produced 66% as much lint as DPL 41. Both varieties had the highest lint yield when planted on April 27. The highest planting rate produced the highest yield for DPL 41, while the medium planting rate produced the most lint for Pima S-5 on April 27.
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Cotton Lint Quality and Relative Value at Different Harvest DatesKittock, D. L., Daugherty, L. S., Selley, R. A. 02 1900 (has links)
No description available.
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The Relationship Between Heat Units and Yield in Arizona Cotton CountiesTaylor, B. B., Malcuit, J. E., Hitz, T. H. 02 1900 (has links)
No description available.
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Harvesting Progress in 1985Farr, C. R. 03 1900 (has links)
The 1985 and 1986 Cotton Reports have the same publication and P-Series numbers.
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Heat Units and Stages of Plant DevelopmentFisher, W. D., Pegelow, E. J. 03 1900 (has links)
The 1985 and 1986 Cotton Reports have the same publication and P-Series numbers.
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Effect of an upper temperature threshold on heat unit calculations, defoliation timing, lint yield, and fiber quality in cottonFromme, Daniel D. 15 May 2009 (has links)
Crop managers need to determine the most profitable time to defoliate cotton
(Gossypium hirsutum L.) in a high rainfall environment such as the coastal region of
Texas. In cotton production, delaying defoliation exposes open bolls to a higher
probability of rainfall, and thus, reduces lint yield and fiber quality. Premature
defoliation, however, has detrimental affects on lint yield and fiber quality.
A more recent method to determine defoliation is based on heat-unit (HU or
DD15) accumulation after physiological cutout or five nodes above white flower
(NAWF=5). Results have been inconsistent across a wide range of field environments
when utilizing HU accumulation past cutout; therefore, adoption of this method has been
limited. Many regions of the Cotton Belt have maximum day time temperatures during
the growing season that are above optimum for maximum growth.
Field studies were conducted for three consecutive growing seasons in the Brazos
River Valley and Upper Gulf Coast regions of Texas. The purpose of this research was
to identify an upper temperature threshold (UTT) for calculating degree days for
defoliation timing. The experimental design consisted of a split-plot design with four
replications. The main plots consisted of three upper temperature thresholds (32°C, 35°C, and no upper limit) and the subplots were five HU timings (361, 417, 472, 528,
and 583) accumulated from date of cutout.
Utilizing an UTT to calculate daily HU failed to explain differences in the
optimum time to defoliate based on accumulated HU from cutout for the upper
thresholds investigated. Accumulated HU had a significant impact, however, on
defoliation timing. Comparison of the two locations showed that maximum lint yield
was obtained at 472 HU and 52% open boll at Wharton County versus a maximum of
528 HU and 62% open boll for the Burleson County location. Employing the NACB=4
method to time defoliation at both locations would have resulted in premature
application of harvest aids and reduced lint yields. No differences were observed in
adjusted gross income values at Wharton County among the 417, 472, 528, and 583 HU
treatments. For Burleson County, adjusted gross income peaked in value at 528 HU.
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Heat UnitsBrown, Paul W. 07 1900 (has links)
7 pp.
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Small Grain Growth and DevelopmentOttman, Michael 09 1900 (has links)
3 pp. / Growing degree days to reach various growth stages in small grains is presented in this publication, as well as the optimum timing of cultural practices relative to crop growth stage.
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