Abstract
An experimental work was conducted in Lleida (Spain) aiming to characterise the phenology and to quantify the demographic processes regulating the populations of Abutilon theophrasti Medicus in maize fields. Seedling emergence started a few days after crop sowing in early May and continued during two more months. The vegetative phase was very long due to the late seeding emergence; these later emerged plants showed a slower development, and many of them did not reach the fertility stage. A flowering peak was observed 12 weeks after emergence in late July, and fruit dehiscence and seed setting started in mid August, several weeks before crop harvest. Four different cohorts were identified, and two main peaks of emergence were determined 21 and 49 days after crop sowing nearest related with field irrigation. A functional logarithmic relationship between cumulative growing degree-days (GDD) and cumulative emergence was also described. The resulting demographic diagram reflects greater values relating to seedling survival for May cohorts (90.2 vs 7.9%), to fertility (100 vs 75%) and to fecundity (3774 vs 92 seeds pl−1) than those determined for the June cohorts. The late emerged plants are subjected to a high density and are strongly affected by light competition, and their reproductive phase initiation delay is of about 10–20 days. In an assay conducted in Petri dishes, the seeds provided from plants emerged earlier were found more vigorous and germinated more than those from late emerged plants, which seem to be affected by incomplete fruit and seed ripening. Following the crop cycle without any weed control, the population rate increase was about 21.2. These values explain the high invasion capacity of this weed in the local summer irrigated fields, which consists in assuring their presence through a persistent soil seed bank and increasing the probability to spread to other fields.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bello IA, Owen MDK and Hatterman-Valenti HM (1995) Effect of shade on velvetleaf (Abutilon theophrasti )growth, seed pro-duction, and dormancy. Weed Technology 9: 452–455
Benvenuti S and Macchia M (1993) Calculation of threshold temperature for the development of various weeds. Agri-coltura Mediterranea 123(3): 252–256
Bloemhard CMJ, Arts MWMF, Scheepens PC and Elema AG (1992) Thermal inactivation of weed seeds and tubers during drying of pig manure. Netherlands Journal of Agri-cultural Science 40(1): 11–19
Calvet V and Recasens J (1993) Caracterización fenológica y demogrÁca de Abutilon theophrasti Medicus como mala hierba introducida en el cultivo del maý ´z en Lleida. Pro-ceedings of the Congreso de la Sociedad Espan ~;ola de Mal-herbologý ´a, pp 93–97, Lugo
Cantele A, Zanin G and Zuin MC (1987) Abutilon theophrasti Medicus: II. Scalaritàdi emergenza dei semi nel terreno. Rivista di Agronomia 21(3): 221–228
Cardina J and Norquay HM (1997) Seed production and seed bank dynamics in subthreshold velvetleaf (Abutilon theo-phrasti )populations. Weed Science 45: 85–90
Cardina J and Sparrow DH (1997) Temporal changes in velvetleaf (Abutilon theophrasti )seed dormancy. Weed Science 45: 61–66
Casasayas T (1989) La. ora al. lòctona de Catalunya. Catàlegraonat de les plantes vasculars exòtiques que creixen sense cultiu al NE de la Pený´nsula Ibe´rica. PhD Thesis. Departa-ment de Biologia Vegetal, Facultat de Biologia, Universitat de Barcelona: 429–431
Casasayas T and Masalles R (1981) Notes sobre la. ora al. lòctona. Butlletý ´InstitucióCatalana d' Història Natural 46 (sec. Bot. 4): 111–115
Corte´s JA, Castejo´n M and Mendiola MA (1998) Incidencias del Abutilon en el valle del Guadalquivir. Agricultura 796: 924–927
Dessaint F, Barralis G, Beuret E, Caixinhas ML, Post BJ and Zanin G (1990) é tude coopé rative EWRS: la dé termination du potentiel semencier I: recherche d' une relation entre la moyenne et la variance d' é chantillonage. Weed Research 30: 421–429
Egley GH (1986) Stimulation of weed seed germination in soil. Review Weed Science 2: 67–89
Egley GH and Chandler JM (1983) Longevity of weed seeds after 5. 5 years in the Stoneville 50-year buried-seed study. Weed Science 31: 264–270
Elema AG, Bloemhard CMJ and Scheepens PC (1990) Risk-analysis for the dissemination of weeds by liquid manure. Mededelingen van de Faculteit Landbouwwetenschappen 55(36): 1203–1208
FernÁndez Quintanilla C (1992) Bases para el control de las malas hierbas en sistemas de agricultura sostenible. Infor-maciónTé cnica Económica Agraria 88V(3): 143–152
Gupta SC (1985) Predicting corn planting dates for mold-board and no tillage systems in the corn belt. Agronomy Journal 77: 446–455
Ha ¨. iger E (1979) Grass weeds, a world wide problem in maize crops. Maize monograph Ciba Geigy 33–37
Hartzler RG, Buhler DD and Stoltenberg DE (1999) Emer-gence characteristics of four annual weed species. Weed Science 47: 578–584
Hess M, Barralis G, Bleiholder H, Buhr L, Eggers TH, Hack H and Stauss R (1997) Use the extended BBCH scale– general for the descriptions of the growth stages of mono-and dicotyledonous weed species. Weed Research 37: 433–441
Holt JS and Boose AB (2000) Potential for spread of Abutilon theophrasti in California. Weed Science 48: 43–52
Horowitz M and Taylorson RB (1984) Harseededness and germinability of velvetleaf (Abutilon theophrasti )as affected by temperature and moisture. Weed Science 32: 111–115
Izquierdo J (1986) Algunas caracterý ´sticas de Abutilon theo-phrasti Medicus, como mala hierba introducida en Lé rida. InformaciónTé cnica Económica Agraria 65: 45–55
Lindquist JL, Maxwell BD, Buhler DD and Gunsolus JL (1995) Velvetleaf (Abutilon theophrasti )recruitment, sur-vival, seed production, and interference in soybean (Glycine max). Weed Science 43: 226–232
Lueschen WE, Andersen RN, Hoverstad TR and Kanne BK (1993) Seventeen years of cropping systems and tillage affect velvetleaf (Abutilon theophrasti )seed longevity. Weed Science 41: 82–86
Mabry CM and Wayne PW (1997) Defoliation of the annual herb Abutilon theophrasti: mechanism underlaying repro-ductive compensation. Oecologia 111: 225–232
Mohler CL and Galford AE (1997) Weed seedling emergence and seed survival: separating the effects of seed position and soil modi cation by tillage. Weed Research 37: 147–155
Mulugeta D and Stoltenberg DE (1997) Seed bank character-ization and emergence of a weed community in a molboard plow system. Weed Science 45: 54–60
Mulugeta D and Stoltenberg DE (1998) Influence of cohorts on Chenopodium album demography. Weed Science 46: 65–70
Pacala SW and Silander JA (1990) Field test of neighborhood population dynamics models of two annual weed species. Ecology Monograph 60: 113–134
Regnier EE, Salvuci ME and Stoller EW (1988) Photosynthe-sis and growth responses to irradiance in soyabean (Glycine max )and three broadleaf weeds. Weed Science 36: 487–496
Sato S, Tateno K and Kobayashi R (1994) Influence of seeding date on flowering and seed production of velvetleaf (Abutilon theophrasti Medicus). Weed Research Japan 39: 243–248
SAS (Statistical Analysis Systems)(1999) SAS/STAT User 's Guide. Cary, North Carolina: Statistical Analysis Systems Institute, 1028
Steinmaus SJ and Norris RF (2002) Growth analysis and can-opy architecture of velvetleaf grown under light conditions representative of irrigated Mediterranean-type agroecosys-tems. Weed Science 50: 42–53
Thompson K and Grime JP (1979) Seasonal variation in the seed bank of herbaceous species in ten contrasting habitats. Journal of Ecology 67: 893–921
Viggiani P (1995) Caratteristiche fenologiche di alcune piante infestanti di recente di. usione in Italia. Informatore Fitopatologico 4: 18–23
Warwick SI (1990) Allozyme and life history variation in ve northwardly colonizing North American weed species. Plant Systematic and Evolution 169: 41–54
Warwick SI and Black LD (1986) Genecological variation in recently established populations of Abutilon theophrasti (velvetleaf). Canadian Journal of Botany 64: 1632–1643
Warwick SI and Black LD (1988) The biology of Canadian Weeds. 90. Abutilon theophrasti. Canadian Journal Plant Sciences 68: 1069–1085
Zanin G and Sattin M (1988) Threshold level and seed pro-duction of velvetleaf (Abutilon theophrasti Medicus)in maize. Weed Research 28: 347–352
Zaragoza C (1982) Dina´mica de la. ora adventicia sometida aluso de herbicidas. Proceedings of the VIII Jornadas de Productos Fitosanitarios del Instituto Quý´mico de Sarria´: 1–9,Barcelona
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Recasens, J., Calvet, V., Cirujeda, A. et al. Phenological and demographic behaviour of an exotic invasive weed in agroecosystems. Biological Invasions 7, 17–27 (2005). https://doi.org/10.1007/s10530-004-9625-x
Issue Date:
DOI: https://doi.org/10.1007/s10530-004-9625-x