Heteroblasty is the significant and abrupt change in form and function, that occurs over the lifespan of certain plants. Characteristics affected include internode length and stem structure as well as
leaf
A leaf (plural, : leaves) is any of the principal appendages of a vascular plant plant stem, stem, usually borne laterally aboveground and specialized for photosynthesis. Leaves are collectively called foliage, as in "autumn foliage", wh ...
form, size and arrangement.
It should not be confused with
seasonal heterophylly, where early and late growth in a season are visibly different.
This change is different from a homoblastic change which is a gradual change or little change at all, so that there is little difference between the juvenile and adult stages.
Some characteristics affected by heteroblastic change include the distance between successive leaves (internode length) and
stem
Stem or STEM may refer to:
Plant structures
* Plant stem, a plant's aboveground axis, made of vascular tissue, off which leaves and flowers hang
* Stipe (botany), a stalk to support some other structure
* Stipe (mycology), the stem of a mushr ...
structure as well as
leaf
A leaf (plural, : leaves) is any of the principal appendages of a vascular plant plant stem, stem, usually borne laterally aboveground and specialized for photosynthesis. Leaves are collectively called foliage, as in "autumn foliage", wh ...
form, size and arrangement.
Heteroblasty is found in many plant families as well as only some species within a genus. This random spread of heteroblastic plants across species is believed to be caused by
convergent evolution
Convergent evolution is the independent evolution of similar features in species of different periods or epochs in time. Convergent evolution creates analogous structures that have similar form or function but were not present in the last com ...
.
The earlier and later stages of development are commonly labeled as juvenile and adult respectively, particularly in relation to leaves.
Heteroblastic change is thus often referred to as ‘
vegetative phase change
Vegetative phase change is the juvenile-to-adult transition in plants.
This transition is distinct from the reproductive transition and is most prolonged and pronounced in woody species. Manipulating phase change may be an important avenue for p ...
’ (distinct from reproductive phase change) in the plant molecular biology literature.
The term heteroblasty was coined by the German botanist
Karl Ritter von Goebel, along with homoblasty for plants with leaf characteristics that do not change significantly.
Leonard Cockayne observed that heteroblasty occurred in an unusually high proportion of tree species native to New Zealand.
Origins
There are two ways to look at how heteroblasty developed. The first is to look at the evolution of heteroblasty, and the second is to consider the ecological interactions of heteroblastic plants.
Evolution
Many hypothesize that heteroblasty is a result of
natural selection
Natural selection is the differential survival and reproduction of individuals due to differences in phenotype. It is a key mechanism of evolution, the change in the heritable traits characteristic of a population over generations. Cha ...
for species, that can best survive in both low and high light environments. As a plant grows in the forest it experiences predictable changes in light intensity. With this in mind a plant that changes its leaf morphology and phyllotaxy to best suit these changes in light intensity could be more competitive than one that has only on leaf form and phyllotaxy.
It is also hypothesized that the development of heteroblastic trees preceded the development of
divaricating shrub forms, which are now very common in
New Zealand
New Zealand ( mi, Aotearoa ) is an island country in the southwestern Pacific Ocean. It consists of two main landmasses—the North Island () and the South Island ()—and over 700 List of islands of New Zealand, smaller islands. It is the ...
. It is thought that these shrubs are a mutation from the heteroblastic trees and have lost the ability to develop into the adult stage and so are very similar to heteroblastic trees in their juvenile form. It has also been observed that heteroblastic species do not stem from a single point of origin they are found in many different and unrelated species, because of this it is believed that large-scale convergent evolution has to have occurred for so many unrelated plants to exhibit similar behavior.
Ecology
Heteroblasty can affect all parts of the plant but the leaves are the most common examples and by far the most studied. It has been hypothesized that the heteroblastic changes are due to changes in the plant's exposure to sun, because many species spend their juvenile years in the understory then grow to maturity where they are a part of the top canopy and so have full exposure to the sun. This has not been well studied, because the common heteroblastic plants are woody and take so long to grow such as ''
Eucalyptus grandis
''Eucalyptus grandis'', commonly known as the flooded gum or rose gum, is a tall tree with smooth bark, rough at the base fibrous or flaky, grey to grey-brown. At maturity, it reaches tall, though the largest specimens can exceed tall. It is f ...
''.
The juvenile plants tend to face more competition and must make special adaptations to succeed that are then unnecessary as a mature plant. For example, a sampling in a dense forest must grow quickly to succeed at first but once it has established itself most woody plants no longer compete severely with their neighbor and so the adaptations needed as a juvenile plant are no longer necessary. This can lead to a change in growth in maturity as the tree faces new environmental factors.
Such as a need to resist new
pathogen
In biology, a pathogen ( el, πάθος, "suffering", "passion" and , "producer of") in the oldest and broadest sense, is any organism or agent that can produce disease. A pathogen may also be referred to as an infectious agent, or simply a ger ...
s or
parasites.
Mechanism
At the cellular level, there are different ways that a plant controls its growth and development. There are internal and external signals that result in a change in the plant's response. The plants also have genetic predetermined growth patterns.
Signaling
Hormone
A hormone (from the Greek participle , "setting in motion") is a class of signaling molecules in multicellular organisms that are sent to distant organs by complex biological processes to regulate physiology and behavior. Hormones are required ...
s are known to regulate heteroblastic change in plants. One hormone that has been identified is
gibberellin
Gibberellins (GAs) are plant hormones that regulate various developmental processes, including stem elongation, germination, dormancy, flowering, flower development, and leaf and fruit senescence. GAs are one of the longest-known classes of plant ...
. In a study, it was used to spontaneously revert the mature form of
Hedera ''helix'' (a common English ivy) to its juvenile form. After being sprayed with
gibberellin
Gibberellins (GAs) are plant hormones that regulate various developmental processes, including stem elongation, germination, dormancy, flowering, flower development, and leaf and fruit senescence. GAs are one of the longest-known classes of plant ...
acid some of the ivies began to produce aerial roots which are a characteristic of the juvenile form as well as three lobed leaves another characteristic. It is also hypothesized that
auxin and
cytokinin when working together can cause the sudden change in phyllotaxy of heterogenetic plants.
The gene ABPH1 has been found to code for
cytokinin and when changed in a mutant affected the plant's ability to regulate the phyllotaxy of the stem. The hypothesis is based mostly on studies done on non-heteroblastic plants and so it is not certain that these are the cause of the sudden changes in a heteroblastic plant. A dramatic change in leaf size is another example of a heteroblastic change in plants and researchers have looked to studies done on non-heteroblastic plants for answers about what hormones and genes could regulate these changes. Aintegumenta has been found to be one of these regulatory genes that regulated cell growth. It is believed that many genes are involved in the regulation of leaf size and these genes do not closely interact meaning they are not caused by a master regulator but instead are a part of many different pathways.
Genetics
Some most common model plants include ''
Arabidopsis thaliana
''Arabidopsis thaliana'', the thale cress, mouse-ear cress or arabidopsis, is a small flowering plant native to Eurasia and Africa. ''A. thaliana'' is considered a weed; it is found along the shoulders of roads and in disturbed land.
A winter ...
'' (common name:
mouse-ear cress), ''
Antirrhinum majus
''Antirrhinum majus'', the common snapdragon (often - especially in horticulture - simply "snapdragon"), is a species of flowering plant belonging to the genus '' Antirrhinum''. The plant was placed in the family Plantaginaceae following a revi ...
'' (common name:
snapdragon), and ''
Zea mays'' (common name: corn). Some authors have argued that these species are not useful models for the study of gene expression in heteroblastic plants because none of them express obvious heteroblastic traits.
Researchers in this area of study can use ''Arabidopsis'' to some degree for study as it does undergo some change from the juvenile phase to the mature phase but it is not clearly heteroblastic. If we assume the process of change is similar and uses similar regulations we can use ''Arabidopsis'' to analyze the causes of change in plant growth that may be occurring in the same way but more dramatically in heteroblastic plants and so can only be used to analyze heteroblastic changes. This involves many assumptions though and so researchers are seeking other plants to use as model subjects. The problem with this is that most plants that display heteroblastic growth are woody plants. Their life spans are much longer in general and unlike ''Arabidopsis'' very little of their genomes are known or mapped. A species that shows promise is ''
Eucalyptus grandis
''Eucalyptus grandis'', commonly known as the flooded gum or rose gum, is a tall tree with smooth bark, rough at the base fibrous or flaky, grey to grey-brown. At maturity, it reaches tall, though the largest specimens can exceed tall. It is f ...
''. This tree is grown commonly because of its many uses for teas, oils, and wood. The tree overall is fast growing and widely grown due to its many uses and so is one of the best candidates for genome sequencing, which is being done now so that the tree can be better studied in the future. There is already a complete quantitative trait loci map for the juvenile traits.
Examples
These plants are a few of the common examples of heteroblastic plants often found in studies and is far from an all-encompassing list. All listed are plants, because they are the only organisms that have been found to undergo this growth change it is absent in animals, fungi, and microbes as far as is known to this point.
#Lightwood (''
Acacia implexa'') is a fast wood tree found in Australia
#Spiral ginger (''
Costus pulverulentus'' C.Presl) is an herb found in South America
found primarily in Nicaragua and is used as a traditional medicine in teas for pain and inflammation. It is also used to treat cancer.
#Lance wood (''
Pseudopanax crassifolius)'' is a native of New Zealand
#Pōkākā (''
Elaeocarpus hookerianus'') native to New Zealand
#Bucket-of-water tree or Maple leaf (''
Carpodetus serratus'') native to New Zealand
Geographic distribution
This is a list of places heteroblastic plants have been commonly found and documented but not a complete list of all places as heteroblastic plants can be hard to identify and do not appear in families predictably.
*
New Zealand
New Zealand ( mi, Aotearoa ) is an island country in the southwestern Pacific Ocean. It consists of two main landmasses—the North Island () and the South Island ()—and over 700 List of islands of New Zealand, smaller islands. It is the ...
has a very large population of heteroblastic plants with about 200 tree species and 10% of the woody shrubs species having heteroblastic tendencies.
*
Australia also has heteroblastic species though the exact amount is not known.
*
South America
South America is a continent entirely in the Western Hemisphere and mostly in the Southern Hemisphere, with a relatively small portion in the Northern Hemisphere at the northern tip of the continent. It can also be described as the souther ...
also has a few heteroblastic plants, specifically known in Mexico, and Nicaragua.
Similar processes
Processes often confused with heteroblasty include:
#
Homoblasty is the first example of this. To understand Heteroblasty you must first understand that homoblasty is different. Homoblastic change is the slight change a plant experiences over a long period of time as it grows to maturity. Examples of this are a plants leaves growing slightly larger over time as it matures or a trees trunk growing in girth.
#
Heterophylly is another term that is often used interchangeably with Heteroblasty. The process of heterophylly refers to specific changes in leaf morphology that lead to variation in leaf shape or size on a single plant. This type of change is seen when you study the individual leaves and compare them, this is different than homoblasty in which the entire foliage changes dramatically but for the most part uniformly. A heteroblastic plant can have heterophyllic changes but they are not the same.
#
Phenotypic Plasticity
Phenotypic plasticity refers to some of the changes in an organism's behavior, morphology and physiology in response to a unique environment. Fundamental to the way in which organisms cope with environmental variation, phenotypic plasticity encompa ...
changes the structure of plants as well but should not be confused with Heteroblasty. Phenotypic plasticity is when an individual can use the same genes to create a different phenotype based on environmental signals. Such as when a plant is adapting its immune system to a new pathogen or when a reptile changes its sex based on environmental queues.
The difference here is that Heteroblasty is not entirely dependent on the environment, though it can be affected by it, and happens throughout the plant's maturity instead of at random points because of an environmental change.
See also
*
Lammas growth, a second burst of growth late in the growing season exhibited by some trees, often different in appearance from spring growth
References
{{reflist
Plant morphology