Moving assimilates. overview structure -what cell types are involved? distribution - where found in...

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moving assimilatesmoving assimilates

overviewoverview

structure -what cell types are involved?

distribution - where found in plants

function - how does phloem work?

functionalityfunctionality

The phloem in higher plants forms the conduit through which photoassimilates as well as a host of other matter (organic and inorganic) moves.

Phloem transport can occur because these materials are transported in a watery fluid.

conduit = system of open tubes

the system

Phloem forms a highly specialized tissue, that is always found in close proximity to the xylem.

Xylem and phloem together, form vascular bundles (stems and leaves) or strands in roots.

Four sieve elements, forming a sieve tube.

in stems

xylem and phloem forms vascular bundles

phloem

in leaves

xylem

phloem

in roots

The xylem and phloem form alternating strands in roots, shown here in Zea mays root.

xylemvessel

xylemvessel

phloem

10 10 µµmm

Sieve tubeSieve tube

Sieve tubeSieve tubeSieve tubeSieve tube

Sieve tubeSieve tube

companioncompanioncellscells

the sieve plate: stops the sieve plate: stops organelles from moving organelles from moving out of specific cellsout of specific cells

high rate of metabolism

The sieve tube takes up carbohydrate at the source from the companion cell, transports it, and unloads via companion cells and associated parenchyma, in sinks. The companion cells are also responsible for the maintenance of the sieve tubes.

Companion cells have a high metabolic rate. This micrograph shows high mitochondrial and ER activity in the companion cell, but not in the adjacent sieve tube

SS

CCCC

The hyperactive nurse, mitochondrial activity

The image to the left shows high mitochondrial and ER activity associated with a companion cell (left) and much less in the two glowing sieve elements.

The image was made using a confocal microscope and a ER-mitochondrion selective dye.

Protein and membrane maintenance of the enucleate sieve elements is carried out by the companion cells

how does phloem work?

sugar enters sieve tubes,water follows by osmosis –region of HIGH TURGORHIGH TURGORPRESSUREPRESSURE

SINKSINKSOURCE

sugar enters sieve tubes,water follows by osmosis

Sugar flows to regions of LOW LOW TURGOR TURGOR PRESSUREPRESSURE

leafleafbudbud

productionproduction

collectioncollection

transporttransport& export& export

SE

pm

pvm

sm

BS

BS

CC

assimilate movement out of a source (leaf) requires three stages:-production, collection, and transport

integration within the whole plant system

sinks -- above and below ground

budsbudsflowersflowers

young leavesyoung leaves

rootsroots

storage organsstorage organsNB... the SOURCE is a photosynthetically-active organ

redirection

Assimilates can be redirected on demand as a result of changes in metabolic requirements, and the flow (which is pressure-driven) changes.

Insects can cause massive long-term redirection of assimilate flow. Aphids are a good example.

stealing assimilatestealing assimilate

large aphid colonies such as this one, can redirect assimilate flow, by forming a significant local sink. The actively growing parts of the plant are thus deprived of energy needed for growth.

Aphids penetrate between and through cells, in search of the phloem. The stylet tips are open in this successful feeder

summary:

phloem transport is pressure-driven

Loading transport

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