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ARS Home » Plains Area » Bushland, Texas » Conservation and Production Research Laboratory » Soil and Water Management Research » Research » Publications at this Location » Publication #257387

Title: Effects of irrigation and plant density on cotton within-boll yield components

Author
item FENG, LU - Academy Of Agricultural Science
item BUFON, VINICIUS - Texas Tech University
item MILLS, CORY - Texas Tech University
item HEQUET, ERIC - Texas Tech University
item BORDOVSKY, JAMES - Texas Agrilife Research
item KEELING, WAYNE - Texas Agrilife Research
item BOMAN, RANDY - Texas Agrilife Research
item BEDNARZ, CRAIG - Texas Tech University

Submitted to: Agronomy Journal
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 11/17/2009
Publication Date: 4/5/2010
Citation: Feng, L., Bufon, V.B., Mills, C.I., Hequet, E., Bordovsky, J.P., Keeling, W., Boman, R., Bednarz, C.W. 2010. Effects of irrigation and plant density on cotton within-boll yield components. Agronomy Journal. 102(3):1032-1036.

Interpretive Summary:

Technical Abstract: Cotton (Gossypium hirsutum L.) lint yield is integrated through whole-plant and within-boll yield components. Crop management practices such as irrigation and plant density may impact yield. Thus, yield dynamics due to irrigation and plant density may result from changes in the most basic yield components. This study investigated how within-boll yield components are altered through irrigation and plant densities. Field experiments were conducted at the Agricultural Complex for Advanced Research and Extension Systems in Lamesa, Texas, in 2006 and 2007. Two contemporary cotton cultivars were arranged in a split-split plot design with irrigation rate as the main plot, cultivar as the subplot, and plant density as the subsubplot. Plants from 3 m of one row were removed from each plot and hand harvested by fruiting position. Then first fruiting position bolls from nodes 9 and 14 had their seeds separated by locule position. Seed number, mass and surface area, and lint mass and fiber number for each seed position were recorded. Individual seed surface area and mass increased as irrigation increased and plant density decreased. Seeds per locule increased with increased irrigation and decreased plant density. Superior within-locule yield components occurred in seed positions between the base and midpoint of the locule. Moreover, fiber number per unit seed surface area was not altered by any treatment, indicating it is probably a heritable yield component. Irrigation rate and plant density effects on cotton yield components occurred at the levels of the plant, within the boll, and even within the locule.