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Sains Malaysiana 44(3)(2015):
347–354
Maternal Mowing Effect on Seed Traits of an Invasive Weed,
Erigeron annuus in Farmland (Kesan Memotong Maternal ke atas Ciri Biji bagi Rumpai Invasif, Erigeron
annuus di Ladang Ternakan)
XIAO-HUI YONG, JIANG-HUA LIU, ZHEN LI, SHU-FENG DU, ZHUO-WEN ZHANG, XUE-FENG MENG, XIAO-JING WU
& YONG-JIAN WANG*
College of Horticulture & Forestry Sciences, Huazhong
Agricultural University,
Wuhan 430070, China
Diserahkan: 25 Februari 2014/Diterima: 30 September 2014
ABSTRACT
The effect of maternal mowing on seed traits of an invasive weed, Erigeron annuus, in farmland was discussed by
comparing mowing plants with intact (no-mowing) plants. The maternal mowing
effect resulted in the decrease of seed mass, achene size, pappus length and
germination percentage and the increase of variation in achene size, pappus
length, dispersal distance and germination non-uniformity. To some extent, the
individuals suffered mowing might accelerate the environmental adaptation
through the increase of these variations. Our study indicated the mean of
mowing in farmland will restrain the growth and reproduction of weed E.
annuus. However, it also increases the diversity of seeds through a more
unequal provision to seeds that shares the risk and increases fitness to a
wider range of heterogeneity of farmland condition.
Keywords: Achene size; Erigeron annuus; maternal mowing; seed traits
ABSTRAK
Kesan memotong maternal ke atas sifat biji bagi rumpai invasif, Erigeron annuus, di ladang ternakan telah dibincangkan
dengan membandingkan tumbuhan yang dipotong dengan tumbuhan utuh
(tidak dipotong). Kesan memotong maternal telah menyebabkan penurunan
jisim biji, saiz aken, panjang papus, peratus percambahan serta
peningkatan dalam variasi saiz aken, panjang papus, jarak penyebaran
dan ketidak-seragaman percambahan. Sedikit sebanyak, individu yang
mengalami kesan potongan mungkin cepat menyesuaikan diri dengan
alam sekitar melalui peningkatan variasi ini. Kajian ini menunjukkan
cara memotong di ladang ternakan akan menghalang pertumbuhan dan
pembiakan rumpai E. annuus. Walau bagaimanapun, ia juga meningkatkan
kepelbagaian biji melalui pembahagian tidak sama rata pada biji
yang berkongsi risiko dan ia juga meningkatkan kecergasan julat
untuk keheterogenan yang lebih luas dalam keadaan ladang ternakan.
Kata kunci: Erigeron
annuus; memotong maternal; saiz aken; sifat biji
RUJUKAN
Baythavong, B.S. 2011. Linking the spatial scale
of environmental variation and the evolution of phenotypic plasticity:
Selection favors adaptive plasticity in fine grained environments. The
American Naturalist 178: 75-87.
Beneke, K., van Rooyen, M.W., Theron. G.K. &
van de Venter, H.A. 1993. Fruit polymorphism in ephemeral species of
Naquamaland. IV. Growth analyses of plant cultivated from the dimorphic
diaspores. Journal of Arid Environments 24: 345-360.
Buide, M.L. 2008. Disentangling the causes of
intra-inflorescence variation in floral traits and fecundity in the
hermaphrodite Silene acutifolia. American Journal of Botany 95:
490-497.
Buide, M.L. 2004. Intra-inflorescence variation
in floral traits and reproductive success of the hermaphrodite Silene
acutifolia. Annals of Botany 94: 441-448.
Case, A.L., Lacey, E.P. & Hopkins, R.G.
1996. Parental effects in Plantago lanceolata L. II. manipulation
of grandparental temperature and parental flowering time. Heredity 76:
287- 295.
Cheplick, G.P. 1996a. Do seed germination
patterns in cleistogamous annual reduce the risk of sibling competition? Journal
of Ecology 84: 247-255.
Cheplick, G.P. 1996b. Cleistogamy and seed
heteromorphism in Triplasis purpurea (Poaceae). Bulletin of the
Torrey Botanical Club 123: 25-33.
Donohue, K. 1999. Seed dispersal as a maternally
influenced character: Mechanistic basis of maternal effects and selection on
maternal characters in an annual plant. The American Naturalist 154:
674-689.
Dorneles, M.C., Ranal, M.A. & Santana, D.G.
2005. Germinação de diásporos de Myracrodruon urundeuva Allemão (Anacardiaceae)
ocorrente no cerrado do Brasil Central [Germination of newly collected
diaspores of Myracrodruon urundeuva Allemão (Anacardiaceae) occurring in
the cerrado of Central Brazil]. Revista Brasileira de Botânica 28: 399-
408. (In Finnish with English summary).
Ellison, A.M. 1987. Effect of seed dimorphism on
the density dependent dynamics of experimental populations of Atriplex
triangularis (Chenopodiaceae). American Journal of Botany 74:
1280-1288.
Fresnillo, B. & Ehlers, B.K. 2008. Variation
in dispersability among mainland and island populations of three wind dispersed
plant species. Plant Systematics and Evolution 270: 243-255.
Geber, M.A. & Griffen, L.R. 2003.
Inheritance and natural selection on functional traits. International
Journal of Plant Sciences 164: 21-42.
Gillespie, J.H. 1977. Natural selection for
variances in offspring numbers, a new evolutionary principle. The American
Naturalist 111: 1010-1014.
Grime, J.P. 1977. Evidence for the existence of
three primary strategies in plants and its relevance to ecological and evolutionary
theory. The American Naturalist 111: 1169- 1194.
Hale, A.N., Imfeld, S.M., Hart, C.E., Gribbins,
K.M., Yoder, J.A. & Collie, M.H. 2010. Reduced seed germination after
pappus removal in the North American dandelion (Taraxacum officinale;
Asteraceae). Weed Science 58: 420-425.
Imbert, E., Escarré, J. & Lepart, J. 1997.
Seed heteromorphism in Crepis sancta (Asteraceae), performance of two
morphs in different environments. Oikos 79: 325-332.
Jacobs, B.S. & Lesmeister, S.A. 2012.
Maternal environmental effects on fitness, fruit morphology and ballistic seed
dispersal distance in an annual forb. Functional Ecology 26: 588-597.
Jason, B.W. & Michael, J.W. 2009. What are
maternal effects (and what are they not)? Philosophical Transactions of the
Royal Society of London Series B-Biological Sciences 364: 1107-1115.
Kaplan, R.H. & Cooper, W.S. 1984. The
evolution of developmental plasticity in reproduction characteristics, an
application of the ‘adaptive coin-flipping’ principle. The American
Naturalist 123: 393-410.
Kotowski, F. 1926. Temperature relations to
germination of vegetable seed. Proceedings of the American Society for
Horticultural Science 23: 176-184.
Mazer, S. 1987. Parental effects on seed
development and seed yield in Raphanus raphanistrum: Implications for
natural and sexual selection. Evolution 41: 35-371.
Meyer, S.E. & Carlson, S.L. 2001. Achene
mass variation in Ericameria nauseosus (Asteraceae) in relation to
dispersal ability and seedling fitness. Functional Ecology 15: 274-281.
Mogie, M., Latham, J.R. & Warman, E.A. 1990.
Genotype-independent aspects of seed ecology in Taraxacum. Oikos 59:
175-182.
Moles, A.T. & Westoby, M. 2006. Seed size
and plant strategy across the whole life cycle. Oikos 113: 91-105.
Montesinos, D., Garcia-Fayos, P. & Mateu, I.
2006. Conflicting selective forces underlying seed dispersal in the endangered
plant Silene diclinis. International Journal of Plant Sciences 167:
103-110.
Rai, J.P.N. & Tripathi, R.S. 1987.
Germination and plant survival and growth of Galingosa parviflora Cav.
as related to food and energy content of its ray- and disc-achenes. Acta
Oecologica 8: 155-165.
Simard, M.J. & Benoit, D.L. 2011. Effect of repetitive
mowing on common ragweed (Ambrosia Artemisiifolia L.) pollen and seed production. Annals of Agricultural and Environmental
Medicine 18: 55-62.
Soons, M.B. & Heil, G.W. 2002. Reduced colonization
capacity in fragmented populations of wind-dispersed grassland forbs. Journal
of Ecology 90: 1033-1043.
Stanton, M. 1984. Seed variation in wild radish: Effect of
seed size on components of seedling and adult fitness. Ecology 65:
1105-1112.
Stanton, M. 1985. Seed size and emergence time within a
stand of wild radish (Raphanus raphanistrum L.): The establishment of a
fitness hierarchy. Oecologia 67: 524-531.
Stratton, D.A. 1989. Competition prolongs expression of
maternal effects in seedlings of Erigeron annuus (Asteraceae). American
Journal of Botany 76: 1646-1653.
Tavsanoglu, C. & Catav, S.S. 2012. Seed size explains
within-population variability in post-fire germination of Cistus
salviifolius. Annales Botanici Fennici 49: 331-340.
Venable, D.L., Burquez, A.M., Corral, G., Morales, E. &
Espinosa, F. 1987. The ecology of seed heteromorphism in Heterosperma
pinnatum in Central Mexico. Ecology 68: 65-76.
Verdú, M. & Traveset, A. 2005. Early emergence enhances
plant fitness: A phylogenetically controlled meta-analysis. Ecology 86:
1385-1394.
Violle, C., Castro, H., Richarte, J. & Navas, M.L. 2009.
Intraspecific seed trait variations and competition: Passive or adaptive
response. Functional Ecology 23: 612-620.
Wang, Y.J., Shi, X.P. & Zhong, Z.C. 2013. The relative
importance of sexual reproduction and clonal propagation in rhizomatous herb Iris
japonica Thunb. from two habitats of Jinyun Mountain, Southwest China. Russian
Journal of Ecology 44: 199-206.
Wang, Y.J., Shi, X.P., Peng, Y., Zhong, Z.C. & Tao, J.P.
2012. Effects of fine-scale pattern of dwarf bamboo on understory species
diversity in Abies faxoniana forest, southwest China. Sains
Malaysiana 41: 649-657.
Wang, Y.J., Tao, J.P. & Zhong, Z.C. 2009. Factors
influencing the distribution and growth of dwarf bamboo, Fargesia nitida,
in a subalpine forest in Wolong nature Reserve, southwest China. Ecological
Research 24: 1013-1021.
Weiner, J., Martinez, S., Müller-Schärer, H., Stoll, P.
& Schmid, B. 1997. How important are environmental maternal effects in
plants? A study with Centaurea maculosa. Journal of Ecology 85:
133-142.
Westoby, M., Falster, D.S., Moles, A.T., Vesk, P.A. &
Wright, I.J. 2002. Plant ecological strategies: Some leading dimensions of
variation between species. Annual Review of Ecology and Systematics 33:
125-159.
Zhang, J. & Maun, M. 1990. Seed size variation and its
effects on seedling growth in Agropyron psammophelum. Botanical
Gazette 151: 106-113.
*Pengarang untuk surat-menyurat; email: wangyj@mail.hzau.edu.cn
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