Floral Nectar Production and Nectary Anatomy and Ultrastructure of Echinacea purpurea (Asteraceae)

doi:10.1093/aob/mcj027

AOBPreview published online on December 9, 2005
Annals of Botany, doi:10.1093/aob/mcj027

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© The Author 2005. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournals.org
Received August 7, 2005
Revised September 6, 2005
Accepted October 25, 2005

Article

Floral Nectar Production and Nectary Anatomy and Ultrastructure of Echinacea purpurea (Asteraceae)

TYLER J. WIST ¹ and ARTHUR R. DAVIS ¹ ^*

¹ Department of Biology, 112 Science Place, University of Saskatchewan, Saskatoon, SK, Canada S7N 5E2

^* To whom correspondence should be addressed.
ARTHUR R. DAVIS, E-mail: davisa{at}duke.usask.ca

Abstract

• Background and Aims In spite of the impressive speciesdiversity in the Asteraceae and their widespread appeal to manygeneralist pollinators, floral-nectary ultrastructure in thefamily has rarely been investigated. To redress this, a studyusing Echinacea purpurea, a plant of horticultural and nutraceuticalvalue, was undertaken. Nectar secretion of disc florets wascompared with floral nectary ultrastructure taking into accountnectar's potential impact upon the reproductive success of thisoutcrossing species.

• Methods Micropipette collectionsof nectar in conjunction with refractometry were used to determinethe volume and nectar-sugar quantities of disc florets throughouttheir phenology, from commencement of its production to cessationof secretion.Light, scanning-electron and transmission-electronmicroscopy were utilized to examine morphology, anatomy andultrastructure of nectaries of the disc florets.

• KeyResults Florets were protandrous with nectar being secretedfrom anthesis until the third day of the pistillate phase. Nectarproduction per floret peaked on the first day of stigma receptivity,making the two innermost whorls of open florets most attractiveto foraging visitors. Modified stomata were situated along theapical rim of the collar-like nectary, which surrounds the stylebase and sits on top of the inferior ovary. The floral nectarywas supplied by phloem only, and both sieve elements and companioncells were found adjacent to the epidermis; the latter participatedin the origin of some of the precursor cells that yielded thesespecialized cells of phloem. Companion cells possessed wallingrowths (transfer cells). Lobed nuclei were a key featureof secretory parenchyma cells.

• Conclusions The abundanceof mitochondria suggests an eccrine mechanism of secretion,although dictyosomal vesicles may contribute to a granulocrineprocess. Phloem sap evidently is the main contributor of nectarcarbohydrates. From the sieve elements and companion cells,an apoplastic route via intercellular spaces and cell walls,leading to the pores of modified stomata, is available. A symplasticpathway, via plasmodesmata connecting sieve elements to companion,parenchyma and epidermal cells, is also feasible. Uncollectednectar was reabsorbed, and the direct innervation of the nectaryby sieve tubes potentially serves a second important route fornectar-sugar reclamation. Microchannels in the outer cuticlemay facilitate both secretion and reabsorption.

Keywords: Echinacea purpurea, eccrine process, floral nectary, floret phenology, modified stomata, nectar reabsorption, nectar secretion, phloem, ultrastructure.

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