Hymenocallis Caribaea (spider lilly)

Showcase your garden. Tell us what is flowering around you.

Moderator: Izhar

Post Reply
tariqyasin
Posts: 19
Joined: May 18th, 2015, 9:47 pm
Country: Pakistan
City: Islamabad
Gardening Interests: Cut flowers, home garden

Hymenocallis Caribaea (spider lilly)

Post by tariqyasin »

the scent is divine and permeates the room
Attachments
IMAG2801.jpg
Top
tariqyasin
Posts: 19
Joined: May 18th, 2015, 9:47 pm
Country: Pakistan
City: Islamabad
Gardening Interests: Cut flowers, home garden

Re: Hymenocallis Caribaea (spider lilly)

Post by tariqyasin »

.....
Attachments
IMAG2800.jpg
Top
Izhar
Moderator
Moderator
Posts: 4340
Joined: April 11th, 2011, 9:38 am
Country: Pakistan
City: Karachi
Gardening Interests: Fragrant plants, shade gardening, bulbous plants, annuals
Location: Karachi, Sindh

Re: Hymenocallis Caribaea (spider lilly)

Post by Izhar »

The fragrance is excellent..
Top
tariqyasin
Posts: 19
Joined: May 18th, 2015, 9:47 pm
Country: Pakistan
City: Islamabad
Gardening Interests: Cut flowers, home garden

Re: Hymenocallis Caribaea (spider lilly)

Post by tariqyasin »

But what makes a flower fragrant? Its tightly closed bud doesn’t treat the senses, nor does its stem. Sometimes the foliage has a lovely fragrance such as that of lavender or allspice but for the fragrance to become activated, the foliage must be rubbed or brushed against. If you notice, you can’t smell a flower until it’s in bloom, and that’s because the petals have tiny little glands called osmophores usually located all over the petal.

Osmophores produce chemical compounds often termed essential and volatile oils. Throughout the flower’s development these oils are manufactured. Once the flower reaches maturity (petals unfurl), the amount of oils present cause the glands to swell and then burst open releasing the oils into the air. This process of mixing the oil and air produces the fragrance.

Now here’s the really cool thing about this phenomena. The glands do not produce just one type of oil. The fragrance we inhale is actually a perfect mixture of different oils. In other words the flower is a master fragrance maker, releasing just the right amount of each oil at a particular moment so when mixed together it creates that flower’s signature scent
Top
M Farooq
Senior Member
Senior Member
Posts: 1756
Joined: July 3rd, 2011, 4:31 am
Country: Pakistan
City: Karachi
Gardening Interests: Fragrant Tropical Plants Ornamental Trees Vines

Re: Hymenocallis Caribaea (spider lilly)

Post by M Farooq »

Very interesting info. I always wondered about the location the fragrance sources in the flower. You just gave nice term to search for. The fragrance of spider lily is no wonder amazing like a fresh breeze and yet we cannot exactly reproduce the exact fragrance of a flower despite all technological advances.
Top
Muhammad Arif Khan
Donor
Donor
Posts: 4323
Joined: April 14th, 2011, 1:01 pm

Re: Hymenocallis Caribaea (spider lilly)

Post by Muhammad Arif Khan »

Thank you Tariq for the information.
Arif
Top
tariqyasin
Posts: 19
Joined: May 18th, 2015, 9:47 pm
Country: Pakistan
City: Islamabad
Gardening Interests: Cut flowers, home garden

Re: Hymenocallis Caribaea (spider lilly)

Post by tariqyasin »

M Farooq wrote:Very interesting info. I always wondered about the location the fragrance sources in the flower. You just gave nice term to search for. The fragrance of spider lily is no wonder amazing like a fresh breeze and yet we cannot exactly reproduce the exact fragrance of a flower despite all technological advances.
Right you are...from phototropism to fragrances.....man is still like a child picking pebbles on the seashore of knowledge
Top
Syed Adnan
Donor
Donor
Posts: 724
Joined: February 21st, 2012, 3:32 pm
Country: Australia
City: Darwin
Gardening Interests: Bulbs, Tubers, Climbers, Annuals, Orchids,
Location: Darwin, Australia

Re: Hymenocallis Caribaea (spider lilly)

Post by Syed Adnan »

An interesting feature about the flower Hymenocallis is that world's tallest building "Burj-Khalifa" design is inspired by this flower.
www.burjkhalifa.ae/en/TheTower/Design.aspx
Top
Muhammad Arif Khan
Donor
Donor
Posts: 4323
Joined: April 14th, 2011, 1:01 pm

Re: Hymenocallis Caribaea (spider lilly)

Post by Muhammad Arif Khan »

The most interesting part is the timing of release of this fragrance, all are at there best at a specific time of the day.
Tariq throw some light on this aspect.
Top
tariqyasin
Posts: 19
Joined: May 18th, 2015, 9:47 pm
Country: Pakistan
City: Islamabad
Gardening Interests: Cut flowers, home garden

Re: Hymenocallis Caribaea (spider lilly)

Post by tariqyasin »

Muhammad Arif Khan wrote:The most interesting part is the timing of release of this fragrance, all are at there best at a specific time of the day.
Tariq throw some light on this aspect.
Sir, in my humble opinion, utilizing the factors affecting evaporation from the high school science and considering that the volatile oils from the osmophores have to finally evaporate into air to produce any kind of scent, time of the day should matter. As humidity, temperature, wind speed would vary throughout the day-night cycle. The book given below however suggests that the subject is a lot more complex.
Attachments
The Biology of Floral Scent will be very appreciated among plant biologists either for teaching activities at the graduate level or as an up-to-date review for researchers. This book can be recommended for the review of the multidisciplinary fields of floral research and should be of interest to horticulturists, plant breeders, plant physiologists, entomologists, and other scientists.<br /><br />The book is divided into five sections. Each chapter contains a detailed list of references cited and seems to be up to date. Section I, comprised of two chapters, relates to the chemistry of floral scent where the chemical diversity of the floral volatile compounds is presented. The techniques for their detection and identification are detailed.<br /><br />Section II, comprising three chapters is dedicated to the biochemical and molecular aspects of floral scent. More precisely, regulation processes either at the metabolic or genetic levels are presented in general and more specifically in two distinct chapters for the biosynthesis of volatile terpenes in the flowers of Arabidopsis thaliana as well as a genomic approach of floral scent in rose.<br /><br />A very interesting Section III deals with cellular and physiological aspects of floral scent synthesis and emission in flowers. In this specific section, the floral scent transport and emission are analyzed through flower, mainly petal, cell wall and specific metabolites, osmophores, epidermal tissues, and specialized structures and organs.<br /><br />Section IV, which 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 biology of the principal Invertebrate pollinators and some Vertebrate pollinators. The taxonomic presentation enables the reader to seek specific information on bees, flies, or moths and so on. Emphasis is placed on the phylogenetic, ecological, and ethological aspects of floral chemistry in pollination. The information, provided on the main classes of fatty acid derivatives, terpenoids, and benze-noids as well as nitrogen- and sulfur-containing compounds emitted from flowers, should be useful for people involved in plant breeding and integrated pest management. There is a short section dealing with birds, bats, and moths and with their role as mixed-pollinator systems. There are ten color photos providing a view of several pollinators on different flowers, and these same photos are presented in black and white in subsequent chapters. A short but specific Chapter 9 reviews the interaction of floral scent and butterflies as pollinators. In other words, who does what, and why do plants emit floral scent compounds. An interesting Chapter 10 concerning the sexually deceptive orchids in conjunction with pollinator attraction follows this chapter. Although far from being considered an exhaustive literature survey, emphasis is placed on deceptive orchids occurring in Australia, Europe and the Neotropics. Chapter 11 concerns the coding and detection of flower volatiles in nectar-foraging insects with emphasis on peripheral detection mechanisms of flower molecules and coding of this information. Odors are definite floral attractors, but they also work in conjunction with other cues (color, texture, taste, etc). The purpose of Chapter 12 is to present learning mechanisms that can influence recognition and discrimination of floral odors with examples used by honeybees and moths in particular. In a brief review of insect olfaction, the physiology and mechanisms involved are presented. The final Chapter 13 of Section IV reviews when scent is important, how it works and which subsets of scents are active.<br /><br />Section V, chapter 14, deals with the commercial aspects of floral scent involving molecular engineering, metabolic pathways, and the implications of metabolic engineering with emphasis on the ecological and physiological effects. This chapter concludes with some potential for challenges to be met in the future.<br /><br />After reviewing this book, we can no longer look the same way at a honeybee or other insects meticulously visiting each flower time and time again as a haphazard visit. No two flowers are alike. There is definitely more going on within the biology of floral scent.
The Biology of Floral Scent will be very appreciated among plant biologists either for teaching activities at the graduate level or as an up-to-date review for researchers. This book can be recommended for the review of the multidisciplinary fields of floral research and should be of interest to horticulturists, plant breeders, plant physiologists, entomologists, and other scientists.

The book is divided into five sections. Each chapter contains a detailed list of references cited and seems to be up to date. Section I, comprised of two chapters, relates to the chemistry of floral scent where the chemical diversity of the floral volatile compounds is presented. The techniques for their detection and identification are detailed.

Section II, comprising three chapters is dedicated to the biochemical and molecular aspects of floral scent. More precisely, regulation processes either at the metabolic or genetic levels are presented in general and more specifically in two distinct chapters for the biosynthesis of volatile terpenes in the flowers of Arabidopsis thaliana as well as a genomic approach of floral scent in rose.

A very interesting Section III deals with cellular and physiological aspects of floral scent synthesis and emission in flowers. In this specific section, the floral scent transport and emission are analyzed through flower, mainly petal, cell wall and specific metabolites, osmophores, epidermal tissues, and specialized structures and organs.

Section IV, which 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 biology of the principal Invertebrate pollinators and some Vertebrate pollinators. The taxonomic presentation enables the reader to seek specific information on bees, flies, or moths and so on. Emphasis is placed on the phylogenetic, ecological, and ethological aspects of floral chemistry in pollination. The information, provided on the main classes of fatty acid derivatives, terpenoids, and benze-noids as well as nitrogen- and sulfur-containing compounds emitted from flowers, should be useful for people involved in plant breeding and integrated pest management. There is a short section dealing with birds, bats, and moths and with their role as mixed-pollinator systems. There are ten color photos providing a view of several pollinators on different flowers, and these same photos are presented in black and white in subsequent chapters. A short but specific Chapter 9 reviews the interaction of floral scent and butterflies as pollinators. In other words, who does what, and why do plants emit floral scent compounds. An interesting Chapter 10 concerning the sexually deceptive orchids in conjunction with pollinator attraction follows this chapter. Although far from being considered an exhaustive literature survey, emphasis is placed on deceptive orchids occurring in Australia, Europe and the Neotropics. Chapter 11 concerns the coding and detection of flower volatiles in nectar-foraging insects with emphasis on peripheral detection mechanisms of flower molecules and coding of this information. Odors are definite floral attractors, but they also work in conjunction with other cues (color, texture, taste, etc). The purpose of Chapter 12 is to present learning mechanisms that can influence recognition and discrimination of floral odors with examples used by honeybees and moths in particular. In a brief review of insect olfaction, the physiology and mechanisms involved are presented. The final Chapter 13 of Section IV reviews when scent is important, how it works and which subsets of scents are active.

Section V, chapter 14, deals with the commercial aspects of floral scent involving molecular engineering, metabolic pathways, and the implications of metabolic engineering with emphasis on the ecological and physiological effects. This chapter concludes with some potential for challenges to be met in the future.

After reviewing this book, we can no longer look the same way at a honeybee or other insects meticulously visiting each flower time and time again as a haphazard visit. No two flowers are alike. There is definitely more going on within the biology of floral scent.
Capture.JPG (36.77 KiB) Viewed 4777 times
Top
Post Reply

Return to “What is blooming in your Garden?”