Mechanical leaf damage causes localized, but not systemic, changes in leaf movement behavior of the Sensitive Plant, Mimosa pudica (Fabaceae) L.

Botany ◽  
2013 ◽  
Vol 91 (1) ◽  
pp. 43-47 ◽  
Author(s):  
James F. Cahill ◽  
Tan Bao ◽  
Megan Maloney ◽  
Carina Kolenosky
Keyword(s):  
Mechanical Damage ◽  
Leaf Damage ◽  
Movement Behavior ◽  
Leaf Movement ◽  
Mimosa Pudica ◽  
Defensive Strategy ◽  
Plant Body ◽  
Adaptive Value ◽  
Fitness Consequences ◽  
Assay Time

A small number of species, including Mimosa pudica, use rapid leaf movement as a presumptive defensive strategy. How movement-based defenses change in response to mechanical damage and whether changes are localized or systemic is unknown. This is in contrast to a substantial literature describing how mechanical leaf damage can cause morphological and chemical responses within a diversity of plant species. Depending on the species and the stimuli, these chemical and morphological responses can be localized to the tissues damaged or systemic throughout the plant body. Here we report the results of a small experiment designed to test the following: (i) whether mechanical leaf damage influences subsequent leaf closure behavior, and (ii) whether changes were systemic or localized. To do this, we scored leaves using a behavioral assay (time-to-reopen leaves following a subsequent touch stimuli) for several days before and following mechanical damage. Leaves above and below the damaged leaf were observed, on damaged and undamaged plants, allowing us to assess whether any change was systemic. We found leaf damage caused strong localized effects, greatly increasing the time-to-reopen of the damaged, but not adjacent, leaves. Neither the physiological cause nor fitness consequences of this behavioral shift are known. Interestingly, this altered behavior resulted in damaged leaves remaining “hidden” longer than undamaged leaves. If leaf closure reduces risk of herbivory, there could be adaptive value, analogous to inducible chemical and morphological defenses.

The chemistry of leaf-movement in Mimosa pudica L.

Tetrahedron ◽  
1999 ◽  
Vol 55 (36) ◽  
pp. 10937-10948 ◽  
Author(s):  
Minoru Ueda ◽  
Shosuke Yamamura
Keyword(s):  
Leaf Movement ◽  
Mimosa Pudica

Diagnosing Plant Disorders

1999 ◽  
Author(s):  
Robert F. Keefer
Keyword(s):  
Mechanical Damage ◽  
Nutrient Deficiency ◽  
Leaf Damage ◽  
Healthy Plant ◽  
Outward Appearance ◽  
Animal Damage ◽  
Chemical Injuries ◽  
Total Plant ◽  
Large Animals ◽  
Trees And Shrubs

Tools to use for diagnosing plant disorders include overall plant appearance, plant tissue testing, total plant analysis, soil testing and analysis, and soil and root abnormalities. Plant appearance will show animal damage, weather-induced problems, chemical injuries, mechanical damage, biotic-associated problems, and plant nutrient deficiency and toxicity symptoms. Many plant growth problems can be correctly diagnosed by skillfully examining the outward appearance of a plant. By knowing the appearance of a healthy plant, one can know what would be different to cause a plant disorder. Animals can damage plants in a variety of ways. Large animals, such as deer, squirrels, gophers, moles, mice, often graze on plant tops, may break off stems, or pull the plants out of the ground. These animals can be discouraged by electric or regular fencing or by placing some repellents close to the plants. Deer can be repelled by hanging small bars of odiferous deodorant soap on the plants; or by spraying the plants with a mixture of an egg in a bucket of water. They also do not like baler twine soaked in spent soil from automobiles. Rodents often live in mulch near trees and shrubs and feed on the roots or tender shoots sometimes killing the plants. Prevention of this kind of damage can be accomplished by placing a ring of gravel or hardware cloth around the shrubs or trees to discourage this feeding. Birds also can be a problem. Woodpeckers and sapsuckers may dig holes in trees looking for insects. By keeping your trees healthy, these birds are discouraged. Other birds are often attracted to new seedings. If shrubs or small trees are damaged by birds, netting can be used to cover the plants as a final resort. Dogs also can damage plantings, usually by urinating on them. There are repellants that can be used to discourage this. Man can cause damage to plants through accidents, neglect, or ignorance as to proper care. There are a number of ways that plants can be damaged mechanically, such as root damage, trunk damage, or leaf damage, usually resulting from accidents.

Le mouvement géotropique des feuilles chez la Sensitive (Mimosa pudica) soumise à l'influence d'un agent anesthésique

1977 ◽  
Vol 55 (1) ◽  
pp. 70-82 ◽  
Author(s):  
Jacky Gaillochet ◽  
Pierrette Fleurat-Lessard
Keyword(s):  
Vertical Position ◽  
Leaf Movement ◽  
Mimosa Pudica ◽  
Cellular Functions

In Mimosa pudica L., the geotropic movement (a slow variety of leaf movement) induced by inverting plants in the gravific field is reversibly inhibited by diethyloxide used in a range of concentrations producing, reversibly, in the same plant, inhibition of the seismonastic leaf movement (a quick variety of leaf movement) and in other organisms, inhibition of various cellular functions such as photosynthesis, caryocinesis, and bacterial luminescence.The degree of inhibition of geotropic leaf movement is dependent upon the concentration of ether, the duration of etherization, the time of anaesthetic admission, and the sequence of the motor organs. Results led to the following conclusions: preliminary etherization of plants, in vertical position, decreases rate of the geotropic movement; etherization occurring during the course of this movement can stop it in certain conditions; geotropic movement is more inhibitedin primary than in secondary motor organs, whereas the opposite occurs in seismonastic movement.The discussion deals with the contribution of these results to the knowledge of leaf geotropism.

Memory and habituation to harmful and non-harmful stimuli in a field population of the sensitive plant, Mimosa pudica

2021 ◽  
pp. 1-10
Author(s):  
Ella Serpell ◽  
Johel Chaves-Campos
Keyword(s):  
Leaf Damage ◽  
Wild Plants ◽  
Long Term Memory ◽  
Mimosa Pudica ◽  
Simulated Herbivory ◽  
Herbivore Damage ◽  
Term Memory ◽  
Tactile Stimuli ◽  
Light Stimuli

Abstract Mimosa pudica is a Neotropical legume that closes its leaves rapidly in response to touch stimulation, hypothetically as herbivory defence. Habituation to non-harmful stimuli and long-term memory of past events have been demonstrated in this species, the former with relatively heavy objects and the latter under laboratory conditions. This species should not habituate to harmful stimuli if leaf movement is a response to herbivore damage. We tested in Monteverde, Costa Rica, whether (1) memory occurs in wild plants, (2) whether habituation occurs under harmful stimuli: simulated herbivory, and (3) whether wild plants can habituate to light non-harmful stimuli. The degree of closing of the leaflets and time until reopening was measured in response to repeated harmful and non-harmful stimuli. The results showed habituation to repeated non-harmful very light stimuli and showed lack of habituation to simulated leaf damage. Wild plants also showed faster rehabituation to repeated non-harmful stimuli when they had been exposed 15 days previously, suggesting possible long-term memory. These results indicate that wild plants are capable of (1) distinguishing between harmful and non-harmful stimuli (only habituating to the latter), (2) memorizing previous events, and 3) habituating very light tactile stimuli commonly experienced in the field.

Tubulin from Mimosa pudica and its involvement in leaf movement

1982 ◽  
Vol 21 (8) ◽  
pp. 1881-1884 ◽  
Author(s):  
Jharna Mukherjee ◽  
Susweta Biswas
Keyword(s):  
Leaf Movement ◽  
Mimosa Pudica

Photocontrol of Mimosa pudica L. leaf movement

Planta ◽  
1967 ◽  
Vol 75 (3) ◽  
pp. 228-238 ◽  
Author(s):  
J. C. Fondeville ◽  
M. J. Schneider ◽  
H. A. Borthwick ◽  
S. B. Hendricks
Keyword(s):  
Leaf Movement ◽  
Mimosa Pudica

scholarly journals Effects of Light Orientation and Mechanical Damage to Leaves on Isoflavone Accumulation in Soybean Seeds

Agronomy ◽  
2021 ◽  
Vol 11 (3) ◽  
pp. 589
Author(s):  
Giuseppe Barion ◽  
Mohamed Hewidy ◽  
Anna Panozzo ◽  
Andrea Aloia ◽  
Teofilo Vamerali
Keyword(s):  
Light Availability ◽  
Mechanical Damage ◽  
Agroforestry Systems ◽  
Leaf Damage ◽  
Protein Accumulation ◽  
Ne Italy ◽  
Large Scope ◽  
Isoflavone Concentration ◽  
Food And Feed ◽  
Isoflavone Metabolism

Soybean is largely cultivated worldwide providing high amounts of proteins and oil for food and feed, and isoflavones for nutraceutical uses. The increasing interest in agroforestry practices for improving carbon sequestration and mitigating climate changes suggests the need to assess soybean response to variations of light availability and direction. A two-year pot trial was carried out at Legnaro (NE Italy) in order to mimic the response of the soybean var. Sponsor to contrasting light orientation (east or west) by artificial shading, associated or not with mechanical leaf damage, in terms of protein accumulation, total cotyledon isoflavone concentration (TCIC) and isoflavone profile. Here, we demonstrate that a different intensity of the isoflavone metabolism exists in response to lighting conditions, with higher TCIC and slightly increased seed crude proteins in plants lighted from the east (morning time) and after mechanical leaf damage. The isoflavone profile was not changed, but low temperatures and high rainfall during seed filling (1st year) were associated with increased accumulation of medium-high molecular weight (MW) forms (i.e., glycosyls and malonyls), while high temperatures and low rainfall (2nd year) with increased accumulation of medium-low MW forms (i.e., glycosyls and aglycones). It is concluded that within agroforestry systems, there is possibly a large scope for maximizing isoflavone accumulation by selecting the harvesting area in the neighboring of the east side of the tree alleys, with further improvements if a mild shoot stripping is applied before flowering.

„Second messenger″ höherer Pflanzen / Second Messenger of Higher Plants

1985 ◽  
Vol 40 (11) ◽  
pp. 1566-1569
Author(s):  
Hermann Schildknecht ◽  
Martin Hein ◽  
Wolfgang Bender
Keyword(s):  
Circadian Rhythm ◽  
Higher Plants ◽  
Second Messenger ◽  
Leaf Movement ◽  
Mimosa Pudica ◽  
Naturally Occurring

Cyclic mononucleotides − 2′,3′ cAMP and 2′,3′ cGMP − were found in several higher plants. They seem to be widespread, naturally occurring compounds. 2′ AMP, 3′ AMP, 2′ GMP and 3′ GMP, which were also isolated from several plants, are possibly artifacts of the cyclic nucleo­tides. In small amounts ApA was isolated from Abutilon grandiflorum, UpA and UpG from Mimosa pudica L.The biological influence of 2′,3′ cAMP and 2′,3′ cGMP on the nyctinastic leaf movement was tested. There is some evidence that both substances shift and dampen the circadian rhythm of Albizia lophanta.

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