Phosphorus Nutrition of Cotton

1. Phosphorus Nutritionof Cotton

2. Outline - P Nutrition of Cotton • U.S. cotton yields since 1975 • Growth and developmentof the cotton plant • Nutrient uptake • General P nutrition andresponse • P placement options • Conclusions

3. Lint, lb/A Year U.S. Cotton Yield,1975 to Present . . . An Increasing Trend Source: USDA-NASS

4. May June July August September October Nov Emergence Squaring 1st bloom Peak bloom 1st open boll 95% mature Harvest 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 0 80 525 1060 1470 1640 2280 Approximate days after planting Approximate heat units after planting A Production Timeline for Irrigated Cotton in the Texas High Plains Source: R. Boman

5. Early Season Root Development of the Cotton Plant Source: Oosterhuis, 1990

6. Roots, ft/plant Based on 36,000 plants/A, there were 9,545 miles of roots /A First bloom 4 true leaves Late bloom/early boll filling Days after planting Cotton Root Length as Affected by Days After Planting (Field Study) Source: Schwab, Mullins & Burmester, 2000

7. Dry Matter Accumulation,and Nitrogen andPhosphorus Uptake of Cotton Source: D. Krieg

8. Cotton Nutrient Uptake Compared to Yield * Irrigated tests

9. Location and year GA *CA *Israel AL 1942 1970 1976 1990 lb/A per day N 3.8 1.8 4.1 3.5 P 0.7 0.3 0.8 0.6 K 2.5 3.0 4.1 3.1 * Irrigated tests Cotton Peak Nutrient Uptake Rate 60 to 100 Days After Planting Source: Mullins and Burmester, 1990

10. P Functions of Phosphorus in Cotton Production • Essential for vigorous root and shoot growth • Promotes early boll development and hastens maturity • Helps overcome the effects of compaction • Increases water use efficiency • Necessary for energy storage and transfer in plants • A two-bale crop can take up more than 50 lb P2O5/A

11. 20 Shoots Leaves Burs Seed 15 Averaged across four varieties Deltapine 90, Stoneville 825, Coker 315, Paymaster 145 P, lb/A 10 5 0 0 21 35 49 63 77 91 105 119 Days after planting P Uptake by Modern Cotton Varieties – 880 lb/A Source: Mullins & Burmester, 1990

12. P, mg Mature boll oven-dry weight ~ 6.5 grams Seed Bur (x 2) Fiber (x 2) Days After Pollination P Compartmentation by Developing Cotton Bolls Source: Leffler, H.R. 1986

13. Reasons to BuildSoil Test P • Increase root growth for efficient uptake of other nutrients • Capitalize on “good weather” years • Minimize risk associated with “bad weather” years • Raise soil productivity • Increase yield potential of all crops in the rotation • Improve grower profit potential • Rules of thumb for raising soil test P • 6 to 14 lb P2O5 needed above crop removal to build soil test P by 1 lb/A on sandy loam to silt loam soils

14. Category definitions vary among laboratories Probability of a Phosphorus Response . . . An Example

15. Relative yield, % Soil test for 95% of maximum yield Cotton Relative Yield Response to Mehlich 3 Soil Test P in North Carolina Source: Cox, F.R. and J.S. Barnes, 2002

16. Lint, lb/A Low initial soil P lb P2O5/A per year 6-Year Average Cotton Response to P Rate and Tillage in Tennessee Source: Howard & others, 2001

17. Mehlich 1 P, ppm at 0 to 6 in. depth Tillage & Year DT=Disk-till NT=No-till lb P2O5/A per year Soil P Levels After 3 Years of P Fertilization on loessial Silt Loam Soil in Tennessee Source: Howard & others, 2001

18. P Placement Options • Broadcast • Banded 2 x 2 (2 in. to the side and 2 in. below seed) • Surface banded • Deep banded • In-furrow with the seed (rates are limited due to possible seedling damage and toxicity) • Rates of 11-37-0 greater than 2.5 to 2.8 gal/A have been shown to reduce cotton stands and yield, and rates greater than 1.5 gal/A are not recommended (Burris et. al., 1992)

19. Low Psoil (29 lb/A extractable P) High Psoil (126 lb/A extractable P) Relative yield, % Relative yield, % a a a a ab b No significant differences Effects of P Placement on Relative Cotton Yield lb P2O5/A applied and placement method Source: Nelson & others, 1949. See notes for application methods

20. Low PDewey soil (CEC=10) 14 lb/A (7 ppm) Mehlich 1-P High PMarvyn soil (CEC=5) 88 lb/A (44 ppm) Mehlich 1-P Relative total root length % Relative total root length, % a a a a No significant differences b Effects of P Placement on Relative Cotton Root Length (Laboratory study) Applied P per pot was identical within a soil Source: Mullins, 1993

21. Low PDewey soil (CEC=10) (14 lb/A Mehlich 1-P) High PMarvyn soil (CEC=5) (88 lb/A Mehlich 1-P) % of roots in P-treated volume % of roots in P-treated volume Effects of P Placement on Percent of Roots in Fertilized Soil (Laboratory study) Applied P per pot was identical within a soil Source: Mullins, 1993

22. In-furrow Year Soil texture Check Starter Difference lint yield, lb/A 1990 Silt loam 1255 1400 145* 1991 Silt loam 1184 1191 7 1991 Silt loam 1503 1586 83* 1992 Silt loam 878 889 11 1992 Silt loam 922 911 -11 1992 Silt loam 999 1040 41 1992 Clay 515 697 182* 1992 Silt loam 734 837 103* 1993 Silt loam 941 1174 233* Average 992 1081 88 * Differences were significant a the 0.05 level of probability. 11-37-0 starter was applied at the rate of 1.5 gal/A. All soils tested high to very high in P. Effect of In-furrow Starter Fertilizer on Cotton Yield (Louisiana) Source: Kovar et. al., 1993.

23. Surface Year Soil texture Check banded Difference lint yield, lb/A 1990 Silt loam 1,255 1,443 188* 1990 Silt loam 823 895 72 1990 Silt loam 1,045 1,032 -13 1991 Silt loam 1,184 1,331 147* 1991 Silt loam 949 1,073 124* 1992 Silt loam 999 1,144 145 1992 Silt loam 878 957 79* 1993 Silt loam 860 969 109* Average 999 1,106 106 * Differences were significant a the 0.05 level of probability. 11-37-0 starter was applied in a 3 inch surface band at the rate of 12 gal/A. All soils tested high to very high in P. Effect of Surface Banded Starter Fertilizer on Cotton Yield (Louisiana) Source: Kovar et. al., 1993.

24. Check 1.5 gal/A 11-37-0 in-furrow 12 gal/A 11-37-0 surface banded Effects of Fertilizer Placement on Cotton Seedling Growth (Louisiana) Source: Kovar et. al., 1993. High soil test P level

25. Check Surf. band (12 gal/A) In-furrow (1.5 gal/A) In-furrow (2.5 gal/A) 2.0 1.8 1.6 1.4 1.2 Root length density, cm/cm3 1.0 0.8 0.6 0.4 0.2 0.0 0-4 inch 0-4 inch 4-8 inch ------- Early bloom ------- Seedling Effect of Starter Fertilizer (11-37-0) on Cotton Root Length Density (Louisiana) Source: Kovar et. al., 1993. High soil test P level

26. 1000 800 600 Lint yield, lb/A a b c 972 c 400 916 818 824 200 0 Control Pre-plant Sidedress LEPA fertigation P fertilizer application method Effect of P Fertilizer and Delivery Method on three-year Average Irrigated Cotton Yield (Texas) Source: Reiter and Krieg - Means with same letter are not different at the 5% level

27. 60 50 40 58 Bolls per sq. m 30 57 53 51 20 10 0 Control Pre-plant Sidedress LEPA fertigation P fertilizer application method P Fertilizer and Delivery Method effect on BollNumber in Irrigated Cotton (Texas) Source: Reiter and Krieg

28. 1.7 1.6 1.5 1.4 1.66 Lint per boll, g 1.3 1.6 1.58 1.54 1.2 1.1 1 Control Pre-plant Sidedress LEPA fertigation P fertilizer application method Effect of P Fertilizer and Delivery Method on Boll Size in Irrigated Cotton (Texas) Source: Reiter and Krieg

29. 45 40 35 Micronaire 39.3 39.7 30 35.6 36.6 25 20 Control Pre-plant Sidedress LEPA fertigation P fertilizer application method Effect of P Fertilizer and Delivery Method on Micronaire of Irrigated Cotton (Texas) Premium range 37-42 Source: Reiter and Krieg

30. Conclusions • Adequate P nutrition is critical in optimizing yield, quality, and profit in cotton production. • While placement of P fertilizer is not as important as in the production of many other crops, banding P can increase yields in some situations (e.g., reduced or no-till, compacted soil conditions). • Soil test levels should be maintained in the medium to high range to assure consistent production, and that P does not limit cotton yield and quality.

31. International Plant Nutrition Institute (IPNI) 655 Engineering Drive, Suite 110Norcross, GA 30092-28326047Phone: 770-447-0335; Fax: 770-448-0439E-mail: info@ipni.net Reference 06128