Presentation is loading. Please wait.

Presentation is loading. Please wait.

Lu Feng Plant and Soil Science Department Texas Tech University Lubbock, TX Effects of irrigation and plant density on yield, quality and within-boll yield.

Published byDwight Perry Modified over 8 years ago

Similar presentations

Presentation on theme: "Lu Feng Plant and Soil Science Department Texas Tech University Lubbock, TX Effects of irrigation and plant density on yield, quality and within-boll yield."— Presentation transcript:

1 Lu Feng Plant and Soil Science Department Texas Tech University Lubbock, TX Effects of irrigation and plant density on yield, quality and within-boll yield components for different cotton varieties

2 Background  Cotton (Gossypium spp.) is one of the most important economic crops in the world.  Improving the fiber quality on the premise of maximizing yield is necessary to maximize the profitability.  Therefore, cotton yield and fiber quality improvements become eternal targets for both cotton researchers and producers.

3 Yield is composed of boll number per unit area, seed number per boll, fiber number per seed and the weight per fiber (Bowman, 2001). The number of fibers and lint weight per seed surface area are the most basic within-boll yield components (Coyle and Smith,1997). Background

4  Fiber quality is determined by fiber cell developmental process. The most important parameters for quality are fiber length, fineness, and maturity.  Differences in fiber properties can be traced to variations among the shapes and maturities of fibers on a single seed and, consequently, within a given boll.

5 Background Yield and fiber quality are variable Variety Environment soil and climate management practices within plant within boll within locule

6 Background  Plant density and irrigation are most common crop management practices.

7 Background Dr. Bednarz et al.(2006) found that boll size, boll number and within-boll yield components are greatly influenced by plant density.

8 Objective Document the effects of irrigation and plant density on boll distribution, yield components, and fiber quality for different cotton varieties.

9 Materials and Methods  Field experiment: Lamesa, Texas, 2006  Treatments : 1) Irrigation rate (High 6.33mm/day Low 4.32mm/day) 2) Plant density (32K, 52K, 80K/Acre) 3) Cultivar (FM9063B2RF, ST4554B2RF)  Experimental design: sub-sub split plot Replications: 3

10 Materials and Methods Harvest plants for each plot Box mapping Locule mapping Ginning SeedLint Delint WeightSurface area Weight AFIS Plant number Boll number Seed number Loc number Mote number

11 Materials and Methods  Plant mapping Plants were mapped according to node and fruiting position in each plot. Mapped cotton bolls for each plot were collected separately as samples. Mapping data were analyzed for yield determination.

12 Materials and Methods  Locule mapping  First position bolls from the 9th and 14th nodes on main- stem were employed for within-boll analysis for each plot.  Locules in each sample were spread apart by hand, and seeds in a locule were numbered by position.

13 Materials and Methods  Fiber quality analysis Advanced Fiber Information System (AFIS)Small Blender

14 Materials and Methods  Seed surface area analysis Seeds were scanned with Epson Perfection V700 PHOTO, and analyzed with WIN SEEDLETM 2007C software (Regent Instruments Inc.).

15 Preliminary Results Within-plant boll distribution Variations of fiber quality associated with node and seed position motes fiber length fineness maturity

16 Boll Distribution

17 Effects of Irrigation Fig 1. Boll distribution response to irrigation Fruiting position 1 Fruiting position 2

18 Effects of Plant Density Fig 2. Boll distribution as affected by plant density

19 Effects of Variety Fig 3. Boll distribution of two varieties position 1 position 2

20 Fiber Quality

21 Effects of Irrigation on Mote Number Fig 4. Number of motes affected by irrigation

22 Irrigation Effects Fig 5. Irrigation effects on fiber length

23 Node and Seed Position Phenomena Fig 6. Fiber length changed with node and seed position

24 Irrigation Effects Fig 7. Irrigation effects on fiber fineness

25 Density and Variety Effects Fig 8. Plant density and variety effects on fiber fineness a a a a b b

26 Seed Position Phenomenon Fig 9. Fiber fineness in different seed position

27 Irrigation Effects on Fiber Maturity Figure 10.Fiber maturity affected by irrigation

28 Maturity Affected by Plant Density Figure11. Response of fiber maturity to plant density

29 Response of Fiber Maturity to Variety Figure 12. Fiber maturity influenced by variety

30 Conclusion Irrigation improved boll distribution both vertically and horizontally on plants, and also improved fiber length and fineness. Modifications of plant density changed within-plant boll distribution. Changes in plant density may also change fiber fineness, but it is dependable on variety. Two different varieties used in this experiment show differences in both boll distribution and fiber quality.

31 Future Work Finish the data analyses for 2006 Repeat the experiment in 2007 and combine two years data.

32 Literatures cited Bednarz, C. W., R. L. Nichols, and S. M. Brown. 2006. Plant density modifications of cotton within-boll yield components. Crop Science. 46:2076-2080. Bowman, D. T., G. A. Van Esbroeck, J. Van’t Hof, and G. M. Jividen. 2001. Ovule fiber cell numbers in modern upland cottons. The Journal of Cotton Sciences. 5:81-83. Cramer, L. M. 2004. A better understanding of the number of fibers per seed in cotton. a thesis in crop science. Texas Tech University, Lubbock, Texas. Coyle, G. G. and C. W. Smith. 1997. Combining ability for within-boll yield components in cotton, Gossypium hirsutum L. Crop Science. 37:1118-1122.

33 Acknowledgement Texas Tech University International cotton research center Dr. Craig Bednarz Dr. Eric Hequet Dr. Hezhong Dong Cory Mills Heath Stoerner

34

Download ppt "Lu Feng Plant and Soil Science Department Texas Tech University Lubbock, TX Effects of irrigation and plant density on yield, quality and within-boll yield."

Similar presentations

Ernst.cebert@email.aamu.edu; rward@aamu.edu Biofumigation in Combination with Conservation Tillage to Control Reniform Nematode in Cotton Ernst Cebert*

Biofumigation in Combination with Conservation Tillage to Control Reniform Nematode in Cotton Ernst Cebert*
Determine seeding rate and hybrid effects on: Phenotypical and physiological plant measurements Canopy and leaf sensor measurements A goal in precision.

Determine seeding rate and hybrid effects on: Phenotypical and physiological plant measurements Canopy and leaf sensor measurements A goal in precision.
EVALUATION OF GREENSEEKER FOR NITROGEN FETILIZATION IN COTTON ALABAMA REPORT 1 Evaluation of Green Seeker for Nitrogen Fertilization in Cotton – Preliminary.

EVALUATION OF GREENSEEKER FOR NITROGEN FETILIZATION IN COTTON ALABAMA REPORT 1 Evaluation of Green Seeker for Nitrogen Fertilization in Cotton – Preliminary.
YIELD AND YIELD COMPONENT ANALYSIS OF ONION CULTIVARS GROWN IN ARID REGIONS ABDULLAH A. ALSADON Department of Plant Production, College of Agriculture,

YIELD AND YIELD COMPONENT ANALYSIS OF ONION CULTIVARS GROWN IN ARID REGIONS ABDULLAH A. ALSADON Department of Plant Production, College of Agriculture,
Hulless barley (Hordeum vulgare L.) resistance to pre-harvest sprouting: diversity and development of method for testing of breeding material L.Legzdiņa,

Hulless barley (Hordeum vulgare L.) resistance to pre-harvest sprouting: diversity and development of method for testing of breeding material L.Legzdiņa,
Economic Impacts of Termination Timing for Irrigation and Plant Bug Control Juan Monge* Diana M. Danforth* Tina Gray Teague** Mark J. Cochran* J. L. Lund**

Economic Impacts of Termination Timing for Irrigation and Plant Bug Control Juan Monge* Diana M. Danforth* Tina Gray Teague** Mark J. Cochran* J. L. Lund**
Phenotypic Structure of Grain Size and Shape Variation in M5 mutant lines of spring wheat Kenzhebayeva Saule, Kazakh National University named after al-Farabi,

Phenotypic Structure of Grain Size and Shape Variation in M5 mutant lines of spring wheat Kenzhebayeva Saule, Kazakh National University named after al-Farabi,
A Case Study of Crop Model Applications in an Increasing Diversity of Genetically Modified Traits Girish Badgujar 1, V.R. Reddy 1, K. Raja. Reddy 2, David.

A Case Study of Crop Model Applications in an Increasing Diversity of Genetically Modified Traits Girish Badgujar 1, V.R. Reddy 1, K. Raja. Reddy 2, David.
Relationships Between NDVI and Plant Physical Measurements Beltwide Cotton Conference January 6-10, 2003 Tim Sharp.

Relationships Between NDVI and Plant Physical Measurements Beltwide Cotton Conference January 6-10, 2003 Tim Sharp.
Cotton: From Farm to Fabric A farmer plants the seeds, then cares for the cotton plants and finally harvests the cotton lint.

Cotton: From Farm to Fabric A farmer plants the seeds, then cares for the cotton plants and finally harvests the cotton lint.
Biodiversity in Agroecosystems Milano, 24-25 February 2011 UNIVERSITY of FLORENCE Department of Plant, Soil and Environmental Science EVALUATION OF THE.

Biodiversity in Agroecosystems Milano, February 2011 UNIVERSITY of FLORENCE Department of Plant, Soil and Environmental Science EVALUATION OF THE.
Phosphorus Nutrition of Cotton

Phosphorus Nutrition of Cotton
Precision Agriculture: The Role of Science Presented by Dr. Eduardo Segarra Department of Agricultural and Applied Economics, Texas Tech University.

Precision Agriculture: The Role of Science Presented by Dr. Eduardo Segarra Department of Agricultural and Applied Economics, Texas Tech University.
Genotyping and association analysis of Gossypium hirsutum lines for resistance in Reniform Nematodes Megha V. Sharma*, Stella Kantartzi, David Weaver,

Genotyping and association analysis of Gossypium hirsutum lines for resistance in Reniform Nematodes Megha V. Sharma*, Stella Kantartzi, David Weaver,
Comparison of Costs and Returns for Alternative Cotton Harvest Methods in the Texas High Plains Jay Yates Extension Program Specialist - Risk Management.

Comparison of Costs and Returns for Alternative Cotton Harvest Methods in the Texas High Plains Jay Yates Extension Program Specialist - Risk Management.
C.W. Bednarz and W.D. Shurley University of Georgia and W.S. Anthony USDA-ARS Losses in Yield, Quality, and Profitability of Cotton From Improper Harvest.

C.W. Bednarz and W.D. Shurley University of Georgia and W.S. Anthony USDA-ARS Losses in Yield, Quality, and Profitability of Cotton From Improper Harvest.
Growth and Development of the Cotton Fruit Craig W. Bednarz University of Georgia Tifton, GA.

Growth and Development of the Cotton Fruit Craig W. Bednarz University of Georgia Tifton, GA.
Utilization of NAA as a Seed Treatment to Control Stem Number in Russet Burbank Andrew P. Robinson, North Dakota State University / University of Minnesota.

Utilization of NAA as a Seed Treatment to Control Stem Number in Russet Burbank Andrew P. Robinson, North Dakota State University / University of Minnesota.
Development of a SBNRC Calculator for Cotton D. Brian Arnall Oklahoma State University W. Raun, J. Solie, M. Stone, R. Taylor, O. Walsh, D. Edmonds, C.

Development of a SBNRC Calculator for Cotton D. Brian Arnall Oklahoma State University W. Raun, J. Solie, M. Stone, R. Taylor, O. Walsh, D. Edmonds, C.
Development of Vegetation Indices as Economic Thresholds for Control of Defoliating Insects of Soybean James BoardVijay MakaRandy PriceDina KnightMatthew.

Development of Vegetation Indices as Economic Thresholds for Control of Defoliating Insects of Soybean James BoardVijay MakaRandy PriceDina KnightMatthew.

Similar presentations

Ads by Google