Field Bindweed

    Field Bindweed

    Common Name(s):

    Field Bindweed
    European Bindweed
    Creeping Jenny
    Smallflowered Morning Glory
    Perennial Morning Glory
    Morning Glory
    Small Bindweed
    Devil’s Guts

    Scientific Name:

    Convolvulus arvensis L.

    Scientific Name Synonyms:

    Convolvulus ambigens House
    Convolvulus incancus auct. non Vahl
    Strophocaulos arvensis (L.) Small

    Symbol:

    COAR4

    Description:

    Life Span: Perennial

    Origin: Introduced

    Growth Characteristics: A perennial vine with glabrous herbage. It reproduces both sexually and vegetatively. Seed germinate through the growing season when adequate moisture is available, with it reaching its peach in late spring or early summer. Plants quickly develop a taproot followed by lateral roots and numerous thin feeding roots. Rapid growth of rhizomes and shoots begins when day temperatures are near 57 degrees F. and night temperatures are at least 36 degrees F. Plants flower June through August. The prostrate plant can twine and may form dense tangled mats.
     
    Flowers: Peduncles arise from leaf axils, range from 0.2 to 2.4 inches long, and bear 1 to several flowers.  Five fused petals form a long funnel-like flower, 0.6 to 1.2 inches long, and 0.9 to 1.4 inches broad.  Five stamens of unequal length are attached to the base of the corolla. The pistil is compound with two thread-like stigmas. Flowers persist only one day and are insect pollinated. 
     
    Fruits/Seeds: Seed is a capsule, 5-10 mm long, bearing 1 to 4 seeds, each about 3-4 mm long.   Seed production is variable and dependent upon environmental conditions. Seeds can persist in the soil for up to 50 years. The number of seed per plant varies between 25 and 300. 

     

    Leaves: Variable, mostly arrow-shaped, 0.4 to 4 inches long and 0.1 to 2.4 inches wide, with petioles 5-40 mm long, Petals are white or pink with white stripes.
     
    Stems: Trailing to somewhat twining, branched, 8to 79 inches long, sometimes forming tangled mats.
     
    Roots: A 2 to 10 foot taproot with large numbers of annual lateral roots that develop adventitiously throughout its length, and penetrate the soil in all directions. Shoot buds arise on these horizontal laterals and develop into rhizomes which, reaching the surface, establish new crowns. These extensive roots can measure 6.6 m long.   Lateral roots are found primarily in the top 12 inches.

    Ecological Adaptions:

    Field Bindweed is native to Europe and Asia. It is successful in many types of climates, but is most troublesome for agriculture throughout the temperate zone. It is common in cultivated field and gardens, along roadsides, railroads, disturbed sites, and waste places. Outside of agricultural fields, it is most often found in moist locations on tracts once used for agriculture. The competitive ability of field bindweed is due largely to its extensive root system. One plant is able to reduce the available soil moisture in the top 24 inches of soil below the “wilting point”.  

    Field bindweed has deep roots that store carbohydrates and proteins. They help field bindweed spread vegetatively and allow it to resprout repeatedly following removal of above-ground growth.   Eexudates from field bindweed roots decrease germination of some crop seeds.

    Soils: Adapted to many soil types
     
    Associated Species: Widespread

    Uses and Management:

    Field Bindweed is declared a Noxious weed in Utah. It is best controlled by repeatedly removing the stems, or by continued application of chemical herbicides.
     
    Successful control is most likely if the above-ground biomass is removed (by tillage, hand-pulling or herbicide application) followed by competition from other species (e.g. from the surrounding vegetation or restoration efforts), and continuous monitoring for resprouts. In agriculture, control has been most successful where tillage is combined with herbicide application, although herbicide application alone can be effective. 2,4-D is the most widely used herbicide because it controls the weed effectively and is relatively inexpensive. Herbicide application should be applied when the herbicide will be translocated to the roots, but before seed set.