Search Results

You are looking at 1 - 10 of 13 items for :

  • "pollination ecology" x
  • All content x
Clear All
Free access

Alan W. Meerow, Stewart T. Reed, Christopher Dunn, and Elena Schnell

We report the analysis of floral fragrance volatiles from two scented amaryllis species, Hippeastrum brasilianum and Hippeastrum parodii. Whereas the headspace of H. brasilianum is dominated by a large peak of (Z)-β-ocimene (88% of total peak area), H. parodii has two large peaks comprising 78%, identified as eucalyptol (1,8-cineole, 30%) and (Z)-β-ocimene (48%). The two species also differ in other constituent compounds. Overall, H. parodii, although producing less total volatile organic compounds (VOCs), has a more diverse bouquet. This species also exhibits an inverse pattern of emission between eucalyptol and β-ocimene, both daily and across the 4-day period from anthesis to senescence of the flower. We compare our results with reports for a complex amaryllis hybrid and a bat-pollinated species, Hippeastrum calyptratum. The hybrid had a very different complement of emissions. The bat-pollinated species shared some of the same constituent volatiles as H. brasilianum and H. parodii, but at lower percentages, and emitted a more diverse assortment of compounds. We conclude that both H. brasilianum and H. parodii attract lepidopteran pollinators but suggest that H. parodii may also attract other insects. We briefly discuss floral fragrance from the perspective of breeding amaryllis.

Free access

Chen Xingwei, Thohirah Lee Abdullah, Sima Taheri, Nur Ashikin Psyquay Abdullah, and Siti Aishah Hassan

with the aid of microscopic techniques and description of flower and fruit developmental stages. Our results could improve understanding of pollination ecology and methods to manipulate flowering and fruit development. Materials and Methods Experimental

Free access

Dansereau Blanche and Charest Pierre-Mathieu

is divided into five chapters, provides very useful information for studies relating to plant-insect interaction and pollination ecology. Chapter 8 provides an overview of the pollination systems and how the chemistry of floral scents is linked to the

Free access

Pan-Hui Huang, Wen-Bin Yu, Jun-Bo Yang, Hong Wang, and Lu Lu

Macior, L.W. Tang, Y. 1997 A preliminary study of the pollination ecology of Pedicularis in the Chinese Himalaya Plant Species Biol. 12 1 7 Powell, W. Morgante, M. Andre, C. Hanafey, M

Free access

Ai-Rong Li, Kai-Yun Guan, and Robin J. Probert

, F.C. 1997 Studies on introduction and cultivation of Pedicularis tricolor Guihaia 17 255 258 in Chinese. Macior, L.W. 1975 The pollination ecology of Pedicularis (Scrophulariaceae) in the Yukon Territory

Open access

Nicolas C. Strange, John K. Moulton, Ernest C. Bernard, William E. Klingeman III, Blair J. Sampson, and Robert N. Trigiano

compared to a common congener Molec. Ecol. 15 2345 2355 doi: 10.1111/j.1365-294X.2006.02937.x Faegri, K. Leendert, V.D.P. 1966 The principles of pollination ecology. Toronto, New York, Toronto, New York, Pergamon Press. https

Free access

S. Alan Walters and Jonathan R. Schultheis

Pollination ecology of the tropical weed Triumfetta semitriloba Jacq. (Tiliaceae), in south-eastern Brazil Rev. Bras. Biol. 58 383 392 Collevatti, R.G. Schoereder, J.H. Campos, L.A.O. 2000 Foraging behavior of bee pollinators on the tropical weed Triumfetta

Free access

Trenton Hamada, Irene Terry, Robert Roemer, and Thomas E. Marler

.M. Machin, P. 2004 Pollination ecology of the Australian cycad Lepidozamia peroffskyana (Zamiaceae) Aust. J. Bot. 52 333 343 Hall, J.A. 2011 The ecology of cycads: Living representatives of an ancient plant lineage and their interactions with animals. Univ

Free access

Kirk W. Pomper, Jeremiah D. Lowe, Li Lu, Sheri B. Crabtree, Shandeep Dutta, Kyle Schneider, and James Tidwell

and selection of a reduced set for DNA fingerprinting and diversity studies Mol. Ecol. Resources 8 317 321 Faegri, K. van der Piji, L. 1971 The principles of pollination ecology Pergammon New York

Full access

Samantha Jay Forbes, Guiliana Mustiga, Alberto Romero, Tobin David Northfield, Smilja Lambert, and Juan Carlos Motamayor

-incompatible ( Falque et al., 1996 ), very little is known about pollination services or pollinator ecology in cacao ( Toledo-Hernandez et al., 2017 ). The general consensus suggests that cacao trees strongly depend on the cross-pollination services provided by