Gary R. Sands, Dept. of Biosystems & Agricultural Engineering, University of Minnesota, St. Paul, MN 55108 [email protected]Agricultural Drainage How it Works & When it Should be Considered Agricultural Drainage How it Works & When it Should be Considered Gary R. Sands, Extension Engineer Dept. of Biosystems & Agricultural Engineering Overview Overview Resources How to determine if drainage is needed Drainage benefits How does drainage work—some technical background drainage planning & design (next time!) Important Planning Publications Important Planning Publications Ontario Ministry of Agriculture, Food and Rural Affairs www.gov.on.ca/omafra Important Planning Publications Important Planning Publications University of Minnesota Extension Service www.extension.umn.edu The “Drainage Outlet” Website http://d-outlet.coafes.umn.edu The “Drainage Outlet” Website http://d-outlet.coafes.umn.edu What is Artificial Drainage? What is Artificial Drainage? Subsurface Drainage Surface Drainage
9
Embed
Agricultural Drainage: How it Works and When it Should be ......Agricultural Drainage: How it Works and When it Should be Considered Gary R. Sands, Dept. of Biosystems & Agricultural
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Agricultural Drainage: How it Works and When it Should be Considered
Gary R. Sands, Dept. of Biosystems & Agricultural Engineering, University of Minnesota, St. Paul, MN [email protected]
Agricultural DrainageHow it Works & When it Should be ConsideredAgricultural DrainageHow it Works & When it Should be Considered
Gary R. Sands, Extension EngineerDept. of Biosystems & Agricultural Engineering
OverviewOverview
Resources
How to determine if drainage is neededDrainage benefits
How does drainage work—some technical background
drainage planning & design (next time!)
Important Planning PublicationsImportant Planning Publications
Ontario Ministry of Agriculture, Food and Rural Affairswww.gov.on.ca/omafra
Important Planning PublicationsImportant Planning PublicationsUniversity of Minnesota Extension Service
www.extension.umn.edu
The “Drainage Outlet” Website http://d-outlet.coafes.umn.eduThe “Drainage Outlet” Website http://d-outlet.coafes.umn.edu What is Artificial Drainage?What is Artificial Drainage?
Subsurface Drainage
Surface Drainage
Agricultural Drainage: How it Works and When it Should be Considered
Gary R. Sands, Dept. of Biosystems & Agricultural Engineering, University of Minnesota, St. Paul, MN [email protected]
To Drain, or Not To Drain . . . To Drain, or Not To Drain . . .
Many production benefits from drainage
…But many issues surround the practice
The Pro’s and Con’s of DrainageThe Pro’s and Con’s of DrainageADVANTAGES
Reduces surface runoff
Reduces soil compaction
Increase crop yields
Decreases yield variability
Enhances timing of field operations
Can extend growing season
Can provide more crop options for rotation
DISADVANTAGESCan increase losses of some nutrients
May increase localized flooding (overloading of mains)
Can impact wetlands
Can disrupt flow of groundwater
High capital costs
Maintenance costs
Benefits of DrainageBenefits of Drainage Damage Due to Excess Soil WaterDamage Due to Excess Soil Water
Crop response to poor aerationCrop emergence problemsStunted crop growth with wet conditions early & late
Timeliness of field operations affected
Traffic patterns interrupted
Buildup of salts in crop root zone
Soil compaction worsened on wet soilsCompaction effect is long-term!
Excess Soil Water Will:Excess Soil Water Will:
Restrict Root Access to Oxygen
Result in incomplete root respiration
Cause formation of acidic compounds in root cells, which kills root cells.
Reduce plant access to soil nutrients
Reduce plant growth rate, or kill plants.
Excess Soil Water Will:Excess Soil Water Will:
Create Anaerobic conditions in the soil root zone.
Promote formation of chemically reduced compounds, some of which are toxic to plants.
Reduce or stop growth of plant roots, which will reduce crop yield.
Agricultural Drainage: How it Works and When it Should be Considered
Gary R. Sands, Dept. of Biosystems & Agricultural Engineering, University of Minnesota, St. Paul, MN [email protected]
Crop Response to DrainageCrop Response to Drainage
Example: A clay loam soil with a watertable at 6” below the soil surface is drained to a watertable depth of 3.5’. How much water was drained from the soil profile?
Solution: Assuming a Pd of 8%, the volume drained is:vol = 8 × (3.5’ - .5’) ÷ 100 = 0.24’ = 2.88”
Drainage Flow PatternsDrainage Flow Patterns
Drain flows enter tile from all sides (even from below!)
Soil, drain spacing, depth to impermeable layer are factors
Agricultural Drainage: How it Works and When it Should be Considered
Gary R. Sands, Dept. of Biosystems & Agricultural Engineering, University of Minnesota, St. Paul, MN [email protected]
Influence of Drain SpacingInfluence of Drain Spacing Influence of Drain DepthInfluence of Drain Depth
Influence of Drain DepthInfluence of Drain Depth
Various spacing/depths achieve a “similar” design water removal rate
standard
shallower & closer
Soil Water Distribution w/DepthSoil Water Distribution w/Depth
Pore Volume(% of soil volume)
Watertable
Hei
ght A
bove
Wat
erta
ble
25 4030 35
Soil Surfacee.g. field capacity = 28%
emptypores
% air% water
water-filledpores
“Under” and “Over” Drainage“Under” and “Over” Drainage
Drainage Depth, (ft.)
Decre
ase i
n Cro
p Yiel
d, (%
)
sandy loam
clay loampeat060
1 5
Soil Type and Depth/SpacingSoil Type and Depth/Spacing
Fine soils: narrower and shallowerLower permeabilities
Coarse soils: wider and deeperGreater permeabilities
Agricultural Drainage: How it Works and When it Should be Considered
Gary R. Sands, Dept. of Biosystems & Agricultural Engineering, University of Minnesota, St. Paul, MN [email protected]
SummarySummary
Assess drainage needs carefully
Draw on local experience and drainage professionals
Soil is primary factor in the “physics” of drainage
Be aware of water quality considerations when planning for drainage
Upcoming WorkshopsUpcoming Workshops
Annual Drainage and Water Management Workshops (CCA credits available)
Crookston, Feb 25th – 27thMankato, March 3rd – 6th
Pore Volume(% of soil volume)
Hei
ght A
bove
Wat
erta
ble
25 4030 35
Soil Surface
Volume of Water DrainedVolume of Water Draineddrainedporesemptypores
water-filledpores
initial watertable position
h
final watertable position
120 - 140Sugar Beets
120 - 130Sunflowers
110 - 140Potatoes
110 - 120Corn (Grain)
105 - 115Fababeans
95 - 105Canary Grass Seed
95 - 105Black Beans
92 - 102Canola - late Argentine
90 - 100Wheat
90 - 100Navy Beans
90 - 100Field Peas
90 - 100Coriander
85 - 100Lentils
85 - 100Flax
85 - 95Brown or Oriental Mustard
85 - 88Oats
80 - 90Yellow Mustard
80 - 90Buckwheat
73 - 83Canola - early Polish
60 - 90Barley
Days to MaturityCrop
Agricultural Drainage: How it Works and When it Should be Considered
Gary R. Sands, Dept. of Biosystems & Agricultural Engineering, University of Minnesota, St. Paul, MN [email protected]