PROJECT 1 : LIGHTING UNIT
CONTEMPORARY METALWORK II
PROJECT 1 : LIGHTING UNIT
CONTEMPORARY METALWORK II
PROJECT 1 : LIGHTING UNIT
SUBJECT MATTER RESEARCH OF PROJECT DIMENSION
CONCEPT INSPIRATION
PRICE ASSUMPTION
CONSUMER PREFRENCES
IDEA GENERATION OCCASION
MARKET SURVEY MATERIAL
PRODUCT
TECHNIQUE
ELEMENTS AND PRINCIPLES OF ART AND DESIGN
Pitcher plants are carnivorous plants whose prey-trapping mechanism features a deep cavity filled with liquid known as a pitfall trap.[1] It is widely assumed pitfall traps evolved by epiascidiation (infolding of the leaf with the axadial or upper surface becoming the inside of the pitcher),[2][3] with selection pressure favouring more deeply cupped leaves over evolutionary time. The pitcher trap evolved independently in three eudicot lineages and one monocot lineage, representing a case of convergent evolution.[2] Some pitcher plant families (such as Nepenthaceae) are placed within clades consisting mostly of flypaper traps, indicating that some pitchers may have evolved from the common ancestors of today's flypaper traps by loss of mucilage[citation needed].
Foraging, flying or crawling insects such as flies are attracted to the cavity formed by the cupped leaf, often by visual lures such as anthocyanin pigments, and nectar bribes. The rim of the pitcher (peristome) is slippery, when moistened by condensation or nectar, causing insects to fall into the trap. Pitcher plants may also contain waxy scales, protruding aldehyde crystals, cuticular folds, downward pointing hairs, or guard-cell-originating lunate cells on the inside of the pitcher to ensure that insects cannot climb out.[1] The small bodies of liquid contained within the pitcher traps are called phytotelmata. They drown the insect, and the body of it is gradually dissolved. This may occur by bacterial action (the bacteria being washed into the pitcher by rainfall) or by enzymes secreted by the plant itself.