Weed ecology and management

1. Weed ecology and management Martha Rosemeyer Ecological Agriculture November 4, 2003

2. Sustainable Agriculture • Three attributes: Economically viable, environmentally sound, socially just • An integrated system including: • natural resources: land/soil, crops, animals, climate • socio-economic resources: capital, labor and management

3. That are organized to satisfy the following goals: • Provide food and fiber • Enhance environmental quality and natural resource base • Make the most efficient use of non-renewable and on-farm resources • Sustain the economic viability of farm operations • Enhance the quality of life for farmers, their families, communities and society as a whole

4. Outline • Definition • Weed ecology and succession • Weed problems and benefits • Weed management: systems modifications vs. input subsitution

5. WEEDS ARE THE GREATEST BIOLOGICAL CHALLENGE TO AGRICULTURAL PRODUCTION, WHETHER CONVENTIONAL OR ORGANIC! Labor 40-70% labor in traditional systems or herbicides to remove weeds

6. Pesticide use in major crops: herbicides major quantity

7. What is driving the system? Why are weeds so important? • Disturbance and Recovery via Succession • Succession is the process by which one community gives way to another • Here referring to plants • Primary vs. secondary succession

8. Two approaches to agriculture • Don’t let succession proceed • Invest much energy in the form of human, animal or fossil fuel • Herbicides are used to prevent succession from occurring • Try to mimic successional stages of the natural ecosystem, the “analogue model” • plant a corresponding successional stage, filling that niche. If the niche is filled a “weed” can’t compete

9. Analogue Approach • Commonly used in tropics where forest is climax • Disturbance can be introduced at any stage to bring back to beginning stage of succession

10. Why we go to all the effort to bring it back to early stages!

11. Annual NPP addition decreases while overall biomass increases

12. Agroforestry • Defined as “practices that intentionally retain trees on land used for crop production or grazing” • Over space or time (rotations that use fallows with trees in it) • fallow: • Trees can be spatially arranged for different effects

13. Roles of trees Good foundation for developing the “emergent properties” of more complex ecosystems” Other roles: Gliessman p259 • microsites for beneficials • reduction of wind

14. Optimizing the positive impacts • Potential negative effects: • shading, allelopathic influence • microclimate effects that favor disease • branches etc. can fall on harvestable portion • Can be mitigated by planting plan Fallow= field not planted to a crop

17. What is a weed? “A plant out of place” • A weed is any plant, native or non-native, that interferes with crop production by doing more harm than good and encroaches where it is not wanted • A successful weed has closely adapted to the life-cycle of the crop and farming practices • Most of our crops and farming practices came via Europe with European weeds • Learn to work with succession instead of preventing it

18. When working against successionWeed problems: competition • Nutrients • Light • Water • Results in lower yields and poor crop quality

19. Interference with harvesting operations • Weed roots such as bindweed wrap around sub-soil blades used for undercutting root crops during harvest • European, extensive problem, difficult to eradicate, root system to 20’, seeds viable for 50 years • Reproduction by seed or rhizomes Field bindweed, (Convulvulus arvensis), Morningglory Family

20. Build up of soil seedbank vs crop seed bank (for storing crops) • Weed seeds present in soil • Seedbank can increase rapidly in one season with fertilization and irrigation and ineffective control • One weed plant can produce thousands of seeds • Affected by management

21. Redroot Pigweed Amaranthus retroflexus Amaranthaceae Fam. • Common throughout the West • One plant can produce thousands of seed • Relative’s seed eaten by Andean populations (Grain amaranth, A. hypochondiacus) • North American indigenous crop (A. blitum)

22. Hairy Galisoga, Galinsoga ciliataAsteraceae Fam. • One of the most difficult-to-control weeds in vegetable production on fertile soil, esp. in NE US • Continually produces seeds throughout growing season • Can produced 7500 seeds/plant

23. Allelopathic affect on crop plant • Black walnut and tomatoes • Lamb’s quarters roots secret oxalic acid • Velvetleaf, quackgrass, Canada thistle, giant foxtail, black mustard and yellow nutsedge • Mechanism: root secretion, decomposition of residues, effects microbial symbionts

24. Weeds can harbor diseases and pathogenic fungi, esp. crop relatives • Classic case of wheat rust disease on wheat with alternative host European barberry • 1970-1990 caused $100 million annually • Barberry eradication project saved farmers $30 million per year

25. Can be directly parasitic • Dodder (Cuscuta sp.) Convolulaceae (Morningglory) Family • Major problem in West US with alfalfa, clover, potatoes, safflower • First germinates root then when finds host becomes parasite

26. Striga is serious problem of corn and sorghum in Africa • Striga in corn, Witchweed, Scrophulariaceae Fam.

27. Benefits of weeds • Enhance soil structure and water penetration • Improve soil tilth • Capture nutrients that would otherwise be lost • Provide habitat for beneficial insects

28. Indicate soil characteristics and suitability for crops • Creeping buttercup, Ranunculus repens, Ranunculaceae Fam. • Introduced from Europe as ornamental • Reproduces from seed or rhizomes • Toxic to cattle • Could indicate moist soil conditions

29. From: Beeby, J. 1997.

30. May be edible: good weed/bad weed concept • Common purselane Portulaca oleracea Portulacaceae Fam. • Introduced from Europe • Seeds can remain dormant for years • Edible fresh or cooked, esp. used in Mexican cooking

31. Know your weed biology: Critical to controlLife habit classification • Annual: A plant that completes its life cycle in one year • Summer annual • Purslane, galinsoga, pigweed, lambsquarters, pineappleweed

32. Winter annuals: common chickweed, black mustard, annual bluegrass Brassica nigra Stellaria media Brassicaceae Caryophullaceae

33. A plant that completes its life cycle in two years above ground Examples are wild carrot (Daucus spp.), bull thistle (Circium vulgare) and poison hemlock (Conium maculatum) Biennials Biennials Wild carrot is a host of leafhopper-vectored aster yellows phytoplasma

34. Perennials • A plant that lives a number of years, often producing seed once each year • Simple perrenials reproduce by seed • Examples are dandelion ((Taraxacum officinale), curly dock (Rumex crispus) and plantain (Plantago sp.) Broadleaf plantain, (Plantago major)

35. Creeping perennials • Reproduce by seed and asexually through rhizomes, stolons (a horizontal above ground stem that roots at the nodes =runners) tubers and rootstalk • Examples are Johnson grass, Bermuda grass, Nutsedge (Cyperus sp.), Field bindweed

36. Management Goal: Balance with crop, not complete eradication • Retain diverse community • Economic threshold concept • Do not start to modify agricultural practices unless it reaches a point where it pays to deal with it in long and short term • Can include ecological concepts as well • If ecological benefit then may want to leave

37. Weed control: Systems approach vs. Input substitution • Systems approach: Direct intervention is last resort! • First modify: • soil conditions • change crop rotation • cultivation and sowing practices • increase competitiveness of crop • introduction of animals as grazers

38. Farming practices affect weed community composition • No-till increases percentage of perennial weeds (annuals shaded out by residue) • Decreased reliance on grass “leys” (2-3 yr rotation into grass (European) increases perennial weeds • grass shades and cutting reduces thistle • Organic production may have worse problems with perennials • Annuals increased by crop nutrition

39. Prevention because of system effect • Crop rotation • Tillage • Fallow • Mulches • black plastic, organic, living • Direct effects • Pesticides • Flame and soil sterilization • Chemicals- vinegar

40. Systems approach vs input substitution • Systems approach modifies system so that weeds are not a problem • Prevention of weed problems • Alternate summer and winter crops (where possible) • Rotate crops- different crops favor different weed., pest and disease populations

41. Crop Rotation effects on weeds Warn season weeds Cool season weeds From: Harwood

42. Weed-suppressive cover crops • Sudan grass, buckwheat, sesbania (hot summer areas) • Perennial rygrass (Lolium perenne) (PNW)- dense growth and allelochemicals suppress weeds (at organic farm) • Optimize planting time to ensure uniform cover

43. Tillage • Pre-plant tillage to allow weed seeds to sprout-- removing part of weed seed bank • may till several times depending on weed pressure • One of main weed control methods of organic farmers • Can also use moldboard plow to bury the weed seeds

44. Fallow • For control of perennial weeds like • Johnson grass, crab grass and Bermuda grass • Tillage can actually increase infestation

45. Mulches • Black plastic mulch in strawberry (also warms soil) • Organic mulches- straw, sawdust, tree leaves, secondary succession vegetation • Living mulches • intercrop with a cover crop

46. I. Direct intervention: pesticideWhat is a pesticide? • An umbrella term used to describe any chemical that controls or kills a pest • Classified by the type of pest they kill • insecticide • fungicide • bactericide • herbicide- kills plants • rodenticide- kills rodents • nematicide- kills nematodes • acaricide- kills mites

47. Contact herbicides • Paraquat: persistent, high acute mam. Toxicity, slightly to high toxic aquatic • Triazine herbicides: Atrazine- persistent, low acute mam. toxicity, carcinogen, endo. disruptor, ground water • Systemic herbicides • glyphosate (OP)- not persistant, low acute mam. tox., slightly toxic aquatic, hormones • (2,4-D (auxin); 2,4,5-T) - not persistent, moderate acute mam. tox., poss. carcinogen; sus. endo. disruptor, potential ground water contaminant

48. Not only is there stimulation of cancer but new story: Endocrine disruptors Theo Colborne, 1987. Our Stolen Future. • PhD UW, observations of birds of Great Lakes • Led to endocrine disruptor hypothesis • Data still emerging • National EPA still not released list of suspected chemicals, though Illinois EPA, Keith, Colborn and Benbrook list and Canada

49. Function of endocrine disruptors • They can act like a natural hormone and bind to a receptor. This causes a similar response by the cell, known as an agonist response. • They can bind to a receptor and prevent a normal response, known as an antagonistic response. • A substance can interfere with the way natural hormones and receptors are synthesized or controlled.

50. Source of Agricultural Endocrine Disruptors • Agricultural runoff /Atmospheric transport • Organochlorine Pesticides (found in insecticides, many now phased out) • DDT, dieldrin, lindane • Carbamate insecticides • **Aldicarb (PAN-pesticide database) • Agricultural runoff • Pesticides currently in use • **Atrazine, trifluralin, permethrin