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Nutrient Balances in Farming Systems

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Title: Nutrient Balances in Farming Systems


1
Nutrient Balances in Farming Systems
  • Henry Ssali
  • Ephraim Nkonya

2
Introduction
  • This presentation addresses USSPs objective
    related to NRM and sustainable agriculture.
  • The results of this research discuss some of the
    reasons that have contributed to sluggish
    agricultural growth
  • The results also demonstrate that for the
    agricultural sector to have a sustainable growth
    discussed previously, a combination of soil
    fertility practices, improved crop varieties and
    the accompanying institutions services are
    required

3
Uganda Soils
  • Most are old/Highly weathered with little mineral
    nutrient reserves
  • Rely on Soil organic matter SOM for nutrients
    and good physical properties
  • SOM still the best indicator of soil fertility

4
SOIL MANAGEMENT
  • SOM, nutrients yields decrease with time during
    cropping phase
  • Inputs org and inorg during cropping phase help
    maintain SOM/nutrients/yields at higher levels
  • With grass/improved fallows, nutrients in the
    topsoil are replenished recycling, BNF,
    depositions, transfer

5
Long-term impact of soil nutrient depletion on
crop yield
6
Profit with without fertilizer agroforestry,
Embu Kenya
7
Soil analysis
  • Soil analysis gives you the nutrient status of a
    plot at one given time
  • In addition, need to know the nutrient stocks and
    what is happening to them with time relative to
    various activities/operations at plot, farm
    higher levels

8
FARM COMPONENTS
  • Farm usually has a number of components/units
  • Crops annual, perennial, high value etc
  • Livestock
  • Pastures
  • Household including surrounding plots
  • Others
  • NUTRIENTS flow within, between outside these
    components/units

9
Nutrient flows/balances
  • Since soil productivity is dynamic, understanding
    nutrient flows and balances helps indicate
  • Extent of nutrient accumulation/depletion
    mining
  • Identify the major nutrient flows and
  • What is likely to happen in future
    sustainabilityat plot, farm, district, system,
    region or national level

10
Nutrient inputs Ins
  • IN 1 mineral fertilizers
  • IN 2 organic inputs
  • IN 3 atm deposition rain, dust
  • IN 4 BNF symbiotic non-symbio
  • IN 5 Sedimentation flooding/irrig
  • IN 6 subsoil exploitation trees, etc

11
Nutrient outputs OUTs
  • OUT 1 harvest leaving farm cps, aps, etc
  • OUT 2 crop residues/manure leaving farm
  • OUT 3 leaching below root zone
  • OUT 4 gaseous losses den, volat, burn
  • OUT 5 runoff and erosion
  • OUT 6 consption ending in deep latrines

12
Nutrient flows/balances in Uganda
  • The 1st was based on yield and input records
    coupled with generalized estimates of erosion
    and other processes as part of a SSA study
    Stoorvogel Smaling 1990
  • Others have been more localised e.g. Pallisa,
    Mpigi, Iganga Kamuli (Wortmann Kaizzi,1998)
    Mayuge (Esilaba et al 2002)

13
Generalized
14
Farming systems
15
Detailed/who mines most?
16
Earlier Findings
  • Balances generally ve INs BNFgt Dep, OUTs
    erosgt harvestsgt leaching eros mainly
    backslopes and summits
  • Annual crops largest area with more mining cf
    perennials land disturbance, low input use
    poor soil cover, K problem where bananas are
    sold or w/o mulch

17
Earlier Findings 2
  • Mining increases with yields and produce sales
  • good managers tend to mine more
  • Since yields are still low, LEISA land
    husbandry, FYM, lcc, residue mangmt, etc can
    reduce/maintain balances to near zero

18
Policies for land management Project
  • Collected data from 147 randomly selected
    communities
  • Provided an opportunity to understand
  • how farmers are managing their farms in the
    different AEZs
  • What the nutrient balances are over most of the
    country
  • Sustainability implications as farmers
    increasingly produce for the market

19
Data collected/selected
  • Crop type, yield, destination sold/eaten
  • plot type, sizes, slope, land crop residue
    management
  • inputs types, sources, rates
  • Surface soil sample fertility status/stocks/textu
    re
  • Livestock types, number, grazing time where
    on/off farm, feeds
  • 1717 plots 409 hh with sufficient soils, plot
    socioeconomic data to estimate nutrient flows
    balances

20
Soils LUT, location
21
Nutrient balances
22
Major nutrient inflows outflowsplot level
23
Notes
  • Data can be linked to other spatial information
    collected AEZs, development domains, production
    zones, etc
  • Nutrient stocks vary with LUTs AEZs but
    basically proportional to SOM sandy soils with
    low SOM Nakasongola, West Nile, L. Kyoga basin
    also have low stocks

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28
Balances stocks
29
Opportunities
  • Since yields are still low and farms are small,
    mining can substantially be reduced through
    integrated approaches that incorporate basically
    LEISA
  • Reducing losses thru erosion only 27 plots used
    practiceswater mngmt/harvest, CA
  • Incorporate legumes into fallows, pastures crop
    rotations to increase BNF
  • Deliberate use of available nutrient sources
  • hh/crop residuesdistributed vs dumping,
  • animal manure only 16.4 yet 55 had more than 1
    TLU5.7 kg N/ha

30
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31
EPHRAIM
32
Economic impact of soil nutrient depletion
  • Biophysical results show the high dependency of
    farmers on soil mining for their livelihoods
  • Approx 25 of farm household income has to be
    spent to replenish depleted nutrients
  • Richer farmers or those realizing higher profits
    deplete their soil more severely than those with
    lower income or profit
  • However, those realizing higher profits are in
    more fertile areas whose soils can support such
    depletion for much longer time than those in poor
    soils

33
Economic impact of soil nutrient depletion
34
What can be done to redress the soil nutrient
depletion?
  • Inorganic fertilizer?
  • High fertilizer price partly responsible for
    limited use of inorganic fertilizer.
  • The marginal value/cost ratio (VCR) of fertilizer
    is 0.31.
  • A VCR of 1.0 is required for fertilizer to be
    profitable
  • A VCR of at least 2.0 is required for widespread
    adoption of fertilizer (CIMMYT, 1985)

35
What can be done to redress depletion? (2)
  • Most likely solution lies in
  • Integrated soil fertility management
  • Use of improved seeds
  • Improved markets and other agricultural services
  • However, profitability of soil fertility
    management practices to complement inorganic
    fertilizer not well known

36
Future research
  • Profitability of alternative soil fertility
    management practices that could complement
    inorganic fertilizer
  • Why farmers do not adopt some cheap alternative
    soil fertility practices, e.g. management and use
    of organic fertilizers
  • Investigate innovative options for making
    fertilizer more profitable. For example
  • Sasakawa Global 2000 demonstration plots showed
    high profit of fertilizer use. Is it because the
    plots used a combination of inputs that
    smallholder farmers dont?
  • Marketing options that could be considered to
    lower the transaction costs of fertilizer
    marketing
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