1 / 34

Phosphorus Nutrition of Alfalfa

Phosphorus Nutrition of Alfalfa. Phosphorus (P) Nutrition of Alfalfa. U.S. alfalfa hay yields keep increasing Nutrient uptake and removal Alfalfa root development General P nutrition P boosts hay yield, recovery, and quality P inputs: frequency and source

trella
Download Presentation

Phosphorus Nutrition of Alfalfa

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Phosphorus Nutritionof Alfalfa

  2. Phosphorus (P) Nutritionof Alfalfa • U.S. alfalfa hay yields keep increasing • Nutrient uptake and removal • Alfalfa root development • General P nutrition • P boosts hay yield, recovery, and quality • P inputs: frequency and source • Requirement for balanced nutrition Outline:

  3. Yield, ton/A U.S. Alfalfa Hay Yields…An Upward Trend Year Source: USDA-NASS

  4. Record Yield:Researchers at University of Arizona(Yuma) set record for alfalfa yieldin a year:24.1 tons/A alfalfa hay in10 cuttings • Optimal and uniform irrigation • Chopped hay removed immediately after cutting • N fertilizer regularly added – was it needed? • 460 lb P2O5/A added before planting • K management unknown • 1,440 lb K2O and 360 lb P2O5/A removed in hay Ludwick, 2000; Arizona

  5. Alfalfa Nutrient Uptakeand Removal • Alfalfa has higher demandfor nutrients than most crops

  6. Alfalfa Root Development • Most lateral roots are near the soil surface for the first year, but more deep lateral roots develop as the plant ages • Alfalfa has lower root density than many grasses and a deeper rooting zone • P and K application increase root growth, enabling roots to obtain moisture and nutrients from greater volume of soil

  7. Available P Unavailable P Phosphorus in Soils • Total P in many soils (0 to 6 in.) ranges from 400 to 2,000 lb/A…but only a fraction of that is available for plant uptake each season

  8. Lower Pconcentration Diffusion Plant root Higher Pconcentration The primary cause of low, short-term uptakeof P fertilizer: • The inability of P to move to absorbing roots

  9. Temperature Effect on Nutrient Uptake Cool soil temperatures will: • slow nutrient release from soil organic matter • reduce diffusion of nutrients to the roots • hinder root absorption and translocation Adequate P is essential for strong root systems Higher levels of nutrients are needed to support vigorous plant growth in cool soil conditions

  10. P Functions in Plants • Energy storage and transfer • Phosphate compounds are “energy currency” • (such as ADP and ATP) • Structural component of biochemicals • Seed formation • Calcium and magnesium phytate • Maintenance and transfer of genetic code • Root growth, rapid crop establishment • Early maturity, quicker recovery

  11. Soil P, ppm Number of nodules Soil water holding capacity P Fertilization Increases Nodulation Azcon et al., 1988

  12. Nodule dry weight, mg/plant P application, lb P2O5/A PFertilization Increases Nodule Growth Gates, 1974

  13. 0 0 1 1 2 2 6 6 P conc., mmol P conc., mmol P Improves Alfalfa Growth and Recovery Alfalfa regrows faster after cutting with adequate P Alfalfa develops more shoots after cutting with adequate P Li et al., 1998

  14. P Response: Timing and Application Study • Six-year study initiated to evaluate effect of P timing and application method • Broadcast or banded P fertilizer • Frequency: • 100 lb P2O5/A every year • 200 lb P2O5/A every 2 years • 600 lb P2O5/A in a one-time preplant application • Total 6-year P rate was the same for all treatments: variables were timing and placement Mullen et al., 2000; OK

  15. 30 Year 1 Year 6 20 Alfalfa yield response, % increase above check 10 0 100/yr 200/2 yr 600/6 yr 200/2 yr 600/6 yr Knifed-in 6 in. deep P application, lb P2O5/A and frequency Yield Response to P inYears One and Six Mullen et al., 2000; OK

  16. 7 Cumulative Yield Response 6.8 6 5.8 5 4.7 4 Total yield increase, ton/A 4.2 3 3.4 2 1 0 100 lbs/A/yr 200 lbs/A/2-yr 600 lbs/A/6-yr 200 lbs/A/2-yr 600 lbs/A/6-yr Knifed-in 6 in. deep P Application, lb P2O5/A and frequency Yield Response:Method and Timing Mullen et al., 2000; OK

  17. Broadcast application Average annual yield increase, lb/A P application, lb P2O5/A Increase in Alfalfa GrowthDue to P Fertilization(split over 5 years or one-time application) Mullen et al., 2000; OK

  18. Disc-band application Average annual yield increase, lb/A P application, lb P2O5/A Increase in Alfalfa GrowthDue to P Fertilization(split over 5 years or one-time application) Mullen et al., 2000; Alberta

  19. Broadcast application Average annual yield increase, lb/A Influence of P Application on Increasing Alfalfa Yield(one-time application or annual application) Mullen et al., 2000; Alberta

  20. Disc-band application Average annual yield increase, lb/A Influence of P Application on Increasing Alfalfa Yield(one-time application or annual application) Mullen et al., 2000; Alberta

  21. (STP=8 ppm,0-45-0) Total 3-year yield, ton P application rate, lb P2O5/A Alfalfa Response toAdded P Fertilizer • Yield response to added P most evident at first cutting • Soil P fertility was maintained by small annual applications or a large one-time application James, 1995; Utah

  22. Established StandsOften Need Additional P • Soil testing and tissueanalysis can revealneed for fertilization. • P fertilizer does not movefar in soil: • Soil incorporationprior to planting is best • Top-dressed and irrigated P is suitablefor subsequent fertilization • P moves during freeze/thaw cycles, washes into soil cracks, and is taken up by shallow surface roots and crowns  and becomes available for plant uptake.

  23. What P Source Is Superiorfor Alfalfa? • Three-year study with 24 cuttings: • 10-34-0 applied in irrigation water • 10-34-0 sprayed on soil surface • 11-52-0 granules broadcast applied • (0, 20,40, 60, 100 lb P2O5/A/yr for 3 years) • Positive hay yield response to P, but: • No differences in P sources or methodsof application in yield or tissueP concentration Ottman et al., 2001; AZ

  24. P Source? Not a Significant Factor for Alfalfa Yields • Four P sources compared(2 liquid, 2 solid): • Yield response to P fertilization(11 to 27% increase) under irrigation No differences in P fertilizersources • Placement compared: • Surface banding or broadcast onestablished alfalfa stands No yield differences due tofertilizer placement Koenig, 2003; Utah

  25. 14 (annual application, 115 lb P2O5/acre) 12 10 Initial 8 7 ppm critical value Soil Test P, ppm 1982 6 1983 4 1984 2 0 Check MAP DAP APP Treatment Effect of P Fertilizeron Soil P Concentrations • Failure to replace harvested nutrients will gradually deplete soil nutrient supply and reduce yields Cihacek, 1993; NM

  26. Adequate P Low P Preparing the Soil Before Planting Is Key Prior to planting: • Incorporate P forestablishment of strongroot systems, promotingrapid recovery, andmaintaining healthy stands • Provide balanced nutrition:Adequate K, Ca, Mg, S, B, etc. • Eliminate soil pH problems - alfalfa does not thrive in acid soils

  27. Alfalfa hay yield, ton/A/yr Balanced P and K NutritionIs Essential for OptimalYields and Stand Maintenance Berg et al., 2005; IN

  28. Proper Attention to All Nutrients Is Required for Healthy Plants and High Yield Levels Berg et al., 2005; IN

  29. General Guidelines for P Fertilization • Use soil testing to guide P fertilization decisions and use local recommendations for best results • Incorporate adequate P into the top 2 to 6 in. of soil prior to planting to meet the first years of productionand nutrient removal in harvested hay • Use tissue analysis to determine need for subsequent-year phosphate • Application can be made any time of the year-- frequently during winter months to meet the high-demand period in the Spring • (avoiding application to snow-covered, frozen, or saturated fields with the potential risk of runoff)

  30. Diagnosis of P Deficiencies • Visual Observation: • Distinct P deficiencies are seldom observableon alfalfa – not an effective diagnostic method! • Soil Testing • Soil test prior to planting and regularly afterwards • Tissue Analysis • Best way to monitor plant performance andprevent hidden hunger and yield loss • Recommended tissue concentration: • 0.25 to 0.40% P in top third of plant

  31. Both P Fertilizer and Animal Manure Provide Nutrition for Alfalfa Cumulative alfalfa yield, g/pot Goss & Stewart, 1979; Texas

  32. Manure Management • Manure supplies many nutrients –but not in the ratio required for crops • Physical problems –compaction, crown damage,leaf burn, salinity • Nutritional problems –N can stimulate weeds, extra Kcan cause cation imbalance for dairy feed rations • Excessive manure applicationmay buildup P concentrations to levelsof concern in water runoff

  33. Summary-P Nutrition of Alfalfa • Alfalfa roots grow best in nutrient-rich soil; Prepare the seedbed prior to planting and supplement in later years as needed • Adequate P promotes vigorous N2 fixation, shoot development, and faster regrowth after cutting • Uptake of P continues through the season and is harvested in large amounts. The P fertilizer source is not important • Placement near the seedling boosts establishment and stand longevity • Crop response to P is best predicted with a soil test and subsequent tissue testing • Nutrient management is an essential key to profitability and efficient use of other inputs

  34. International Plant Nutrition Institute (IPNI)655 Engineering Drive, Suite 110Norcross, GA 30092-2837Phone: 770-447-0335; Fax 770-448-0439Website: www.ipni.net Reference 06128

More Related