Abstract Field, laboratory, and greenhouse experiments were conducted to determine the seed production potential and effect of environmental factors on germination, emergence, and survival of texasweed. Texasweed produced an average of 893 seed per plant, and 90% were viable. Seed exhibited dormancy, and prechilling did not release dormancy. Percent germination ranged from 56% for seed subjected to no prechilling to 1% for seed prechilled at 5 C for 140 d. Seed remained viable during extended prechilling conditions, with 80% of seed viable after 140 d of prechilling. Texasweed seed germinated over a range of 20 to 40 C, with optimum germination (54%) occurring with a fluctuating 40/30 C temperature regime. Seed germinated with fluctuating 12-h light/dark and constant dark conditions. Texasweed seed germinated over a broad range of pH, osmotic potential, and salt concentrations. Seed germination was 31 to 62% over a pH range from 4 to 10. Germination of texasweed ranged from 9 to 56% as osmotic potential decreased from − 0.8 MPa to 0 (distilled water). Germination was greater than 52% at less than 40 mM NaCl concentrations and lowest (27%) at 160 mM NaCl. Texasweed seedlings emerged from soil depths as deep as 7.5 cm (7% emergence), but emergence was > 67% for seed placed on the soil surface or at a 1-cm depth. Texasweed seed did not germinate under saturated or flooded conditions, but seed survived flooding and germinated (23 to 25%) after flood removal. Texasweed seedlings 2.5 to 15 cm tall were not affected by emersion in 10-cm-deep flood for up to 14 d. These results suggest that texasweed seed is capable of germinating and surviving in a variety of climatic and edaphic conditions, and that flooding is not a viable management option for emerged plants of texasweed. Nomenclature: Texasweed, Caperonia palustris (L.) St. Hil. CNPPA.
[1]
H. Hatterman-Valenti,et al.
Factors affecting germination and seed production of Eriochloa villosa
,
2000,
Weed Science.
[2]
K. N. Reddy,et al.
Factors affecting Campsis radicans seed germination and seedling emergence
,
2000,
Weed Science.
[3]
M. Macchia,et al.
Germination ecophysiology of bur beggarticks (Bidens tripartita) as affected by light and oxygen
,
1997,
Weed Science.
[4]
S. Benvenuti.
Soil Light Penetration and Dormancy of Jimsonweed (Datura stramonium) Seeds
,
1995,
Weed Science.
[5]
C. M. Karssen,et al.
Seasonal Periodicity in Germination of Seeds of Chenopodium album L.
,
1993
.
[6]
D. Shilling,et al.
Factors Affecting Germination of Dogfennel (Eupatorium capillifolium) and Yankeeweed (Eupatorium compositifolium)
,
1992,
Weed Science.
[7]
Megh Singh,et al.
Germination and Emergence of Hairy Beggarticks (Bidens pilosa)
,
1992,
Weed Science.
[8]
D. Shaw,et al.
Redvine (Brunnichia ovata) Germination and Emergence
,
1991,
Weed Science.
[9]
R. Taylorson.
Environmental and chemical manipulation of weed seed dormancy
,
1987
.
[10]
S. Duke,et al.
Physiology of weed seed dormancy and germination
,
1985
.
[11]
Megh Singh,et al.
Germination Ecology of Milkweedvine (Morrenia odorata)
,
1984,
Weed Science.
[12]
J. Bewley,et al.
The Release from Dormancy
,
1982
.
[13]
A. Steuter,et al.
Water potential of aqueous polyethylene glycol.
,
1981,
Plant physiology.
[14]
C. Baskin,et al.
Ecophysiology of Secondary Dormancy in Seeds of Ambrosia Artemisiifolia
,
1980
.