Argiope radon

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Argiope radon
Argiope radon dorsal1536.jpg
Argiope radon female dorsal view, Litchfield National Park
Argiope radon (ventral) 1535.jpg
Ventral view
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Subphylum: Chelicerata
Class: Arachnida
Order: Araneae
Infraorder: Araneomorphae
Family: Araneidae
Genus: Argiope
Species:
A. radon
Binomial name
Argiope radon
Levi, 1983
Synonyms

Argiope radon is a species of orb web spider native to Australia. [1] It is found in tropical areas of the Northern Territory, Western Australia and Queensland. [2] [3] It is commonly known as the Northern St Andrew's cross spider. [4]

Contents

Like most orb-weaving spiders, males are much smaller than females. The female grows to around 18 mm in body length while the male is around 6 mm. Females of this species construct web decorations. [4] There were 86 records of Argiope radon listed in Australia as of January 2021. [2] They tend to either form aggregations with spiders of the same species or are found as solitary individuals, and their states heavily impact their web decorating abilities. [5] Their webs are greatly affected by humidity, but are less affected by temperature changes. [6]

Description

The A. radon’s carapace, the hard upper shell portion of their body, is a dark brown colour at the top and gradually fades into a white colour towards the outer-parts of the shell. Their sternum is generally black, except for the middle part, which is white. The dorsum of the abdomen is also white and is covered with white hairs. In addition, the abdomen is framed with a dark black colour and has black posterior tips. [7]

Habitat and distribution

Habitat

A. radon differ from the other Argiope species in that they are found in aggregations around river-banks and streams. Their web-building occurs near vegetation that overhang waters. [5]

Geographic distribution

Argiope radon are distributed in the Northern Territory and Queensland states of Australia. They are found in semi-arid tropical savannas, which have distinct wet and dry seasons. [5]

Diet

Adult

Predatory feeding

This spider’s model prey are the stingless bees, which are easily attracted to the decorations and colours of the spiders. In addition to chromatic colours, the UV reflecting properties on the abdomen also serve as a way to attract prey. However, in general, prey are more likely to approach webs with decorations rather than those that do not have decorations. There is no significant difference in the number of prey that can be caught by either solitary or aggregating spiders over a 10-day period. [5]

Webs

Web type

Like other orb-web spiders, A. radon, create spiral, circular webs in addition to silk decorations. Their orb-webs are also created pointing towards the southeast-northwest plane. [5]

Prey capture technique

The web’s architecture plays a significant role in its functions, especially when the force inputted by the prey is high. Hence, the sparse meshwork of larger webs makes them less likely to capture prey. In the high-performing webs, however, the architecture will not be as important. [8]

Though the amount of biomass the webs can capture is unrelated to the size of the web at low prey kinetic energy levels, rare and large prey contribute much less to the amount of biomass that is captured. It is true that there is a selective pathway for how high-performance webs change—large webs with longer radial threads have the ability to capture even more biomass on the web. [8]

Construction

The effectiveness of webs varies depending on several different factors. The webs’ ability to stop an intense amount of force for an organism is not impaired by temperature, but can be affected by extreme cases of humidity. Having a too low or too high of a temperature can potentially counter the effects of the webs in capturing prey. Other factors include gravity and interactions that may dampen webs. [6]

Decoration

The decorations on spider webs differ based on several factors such as mating and type of spiders. These specific spiders are similar to other Argiope species in that they build silk decorations that are diagonal, starting from the top left of the web to going to the bottom right side. In addition, satiation levels influence the length of web decorations and tendency to form aggregations. [5]

Decorations of aggregating spiders were significantly shorter than the decorations of solitary spiders, and spiders that are in aggregations tend to have more variability in their web decorating abilities than the solitary ones. There are no significant differences in the kleptoparasitic load between aggregating and solitary spiders. [5]

Spiders that are less hungry (or more full) build decorations that are longer in length than those built by less satiated spiders. There is no correlation between satiety and tendency to aggregate.

Longevity

Due to the tensile properties of these nonlinear patterned webs, the orb-webs are highly functional, even after being damaged. These spiders can rapidly repair any damage to the webs. Hence, their webs last longer than most spiders’ webs. [8]

Reproduction and life cycle

Fertilization

Resting metabolic rate (RMR) of a female’s parents does not change how long it takes her to lay an egg sac after mating. However, females with higher RMR values have significantly heavier egg sacs. [9]

Brood size

As the age at which females lay their offspring increases, the mass of the egg sacs decreases, regardless of the order in which those egg sacs are laid. In general, the size of the eggs for the first egg sac tends to be greater than the size of the second egg. The amount of protein in the eggs, however, does not change with the egg sac order or the age of the female at the time the offspring is born. Usually, total available resources decreases with increased maternal age, which leads to lower egg sac mass and later emerging time for young. But, females are able to compensate for the later emerging time by creating eggs that are bigger in size. This increase in size of the eggs is what allows these offspring to better tolerate starvation.

There is no significant correlation between the time at which offspring emerge and the egg’s size and protein content. There is also no significant relationship between the offspring’s toleration of starvation and the size of the egg or its protein content. [10]

Mating

Mate search behaviour

Males tend to prefer the webs of females that are a part of aggregations than those of solitary females. Likewise, males preferred to stay with females that have web decorations over those that do not. [5]

Female/male interaction

Pheromones

Female spiders use sex pheromones to send out signals for mating. [5]

Courting

Male courtship shuttering can influence female mate choice. Courtship behaviours that are less repetitious are courting behaviours that previously did not have much effect on the female’s mating preferences. [11]

Copulation

Having long copulations helps males to increase their effectiveness in genital plugging. Hence, female spiders reduce time spent copulating with lower quality males. Because of the presence of the female choice during copulation, the duration of copulation only plays a minor role in mating success for the male. [11]

Sexual cannibalism

There is a very high risk of cannibalism during courtship, especially from female web-building spiders. The females are highly aggressive and exhibit sexual cannibalistic behaviours. Males, therefore, are at risk for injury when they choose to approach a female. This risk leads to a strong level of selection for high repeatability in male courtship signals. These signals of high repeatability help to relay an increased amount of information to females about the male’s identity and intent. Because females have poor vision, these repeatable vibratory signals are key to reducing the risk of male injury. [11]

Social behaviour

Spiderling sociality

A. radon are more likely to be found as aggregations rather than as solitary individuals. However, there is no sizable difference between aggregating spiders and solitary spiders in terms of body length, web height, and mesh height. But, there are far more males per female found in aggregating groups of spiders than with solitary spiders. [5]

Enemies

Predators

The A. radon’s model predators are the blue tits. The blue tit’s visual system is well-known and about 20% of their diet is composed of spiders. Their methods for prey capturing include the use of UV-specific cues. [5]

Physiology

Locomotion

Lowered resting metabolic rates (RMR) are favored when spiders are completing activities that require a large amount of energy. However, this does not mean that lower RMR values are favored. [9]

Digestion

The resting metabolic rate (RMR) of female spiders does not change drastically with age but is significantly affected by whether female spiders have mated or not. For example, mated females have RMRs that are reduced by almost 29-35%. In addition, the RMR for both females and males is positively correlated with the offspring’s body mass. [9]

Bites to humans and animals

Incidence

The Argiope spiders are common spiders in the United States and have minor medical importance. The best way to prevent getting a spider bite is to simply flick the spider. Avoid crushing the spider on the skin because that may incite the spider’s reflexive response, causing the spider's fangs to dig into skin. [12]

Related Research Articles

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References

  1. Levi, Herbert W. (1983). "The orb-weaver genera Argiope, Gea, and Neogea from the Western Pacific Region (Araneae: Araneidae, Argiopinae)". Bulletin of the Museum of Comparative Zoology. 150 (5): 318 . Retrieved 4 January 2019.
  2. 1 2 "Argiope radon Levi, 1983". Atlas of Living Australia. Ala.org.au. 1983. Retrieved 2020-11-11.
  3. "Argiope radon". Global Biodiversity Information Facility. Retrieved 2020-11-11.
  4. 1 2 Whyte, Robert; Anderson, Greg (2017). A Field Guide to Spiders of Australia. Clayton South Vic.: CSIRO publishing. p. 80. ISBN   9780643107076.
  5. 1 2 3 4 5 6 7 8 9 10 11 Rao, Dinesh; Webster, Malcolm; Heiling, Astrid M.; Bruce, Matthew J.; Herberstein, Marie E. (2009). "The aggregating behaviour of Argiope radon, with special reference to web decorations". Journal of Ethology. 27: 35–42. doi:10.1007/s10164-007-0080-x. S2CID   20522131.
  6. 1 2 Blamires, S. J.; Sellers, W. I. (2019). "Modelling temperature and humidity effects on web performance: Implications for predicting orb-web spider (Argiope SPP.) foraging under Australian climate change scenarios". Conservation Physiology. 7 (1): coz083. doi:10.1093/conphys/coz083. PMC   6899225 . PMID   31832193.
  7. Levi, Herbert W. “The Orb-Weaver Genera Argiope, Gea, and Neogea from the Western Pacific Region (Araneae: Araneidae, Argiopinae).” Bulletin of the Museum of Comparative Zoology, vol. 150, no. 5, 22 Dec. 1983.
  8. 1 2 3 Harmer, Aaron M. T.; Clausen, Philip D.; Wroe, Stephen; Madin, Joshua S. (2015). "Large orb-webs adapted to maximise total biomass not rare, large prey". Scientific Reports. 5: 14121. Bibcode:2015NatSR...514121H. doi:10.1038/srep14121. PMC   4570981 . PMID   26374379.
  9. 1 2 3 Ameri, Mohammad; Kemp, Darrell J.; Barry, Katherine L.; Herberstein, Marie E. (2020). "Is resting metabolic rate related to reproductive output in an orb-web spider, Argiope radon ?". Ecological Entomology. 45 (5): 1044–1052. Bibcode:2020EcoEn..45.1044A. doi:10.1111/een.12882. S2CID   218942532.
  10. Ameri, Mohammad; Kemp, Darrell J.; Barry, Katherine L.; Herberstein, Marie E. (2019). "Age-Specific Reproductive Investment and Offspring Performance in an Orb-web Spider, Argiope radon". Evolutionary Biology. 46 (2): 207–215. Bibcode:2019EvBio..46..207A. doi:10.1007/s11692-019-09476-8. S2CID   139101136.
  11. 1 2 3 Wignall, Anne E.; Kemp, Darrell J.; Herberstein, Marie E. (2014). "Extreme short-term repeatability of male courtship performance in a tropical orb-web spider". Behavioral Ecology. 25 (5): 1083–1088. doi: 10.1093/beheco/aru083 .
  12. Diaz, J. H.; Leblanc, K. E. (2007). "Common spider bites". American Family Physician. 75 (6): 869–73. PMID   17390599.