28 research outputs found
Visual Signalling in Plant-Animal Interactions
The process of visual signalling between plant and animals is often a combination
of exciting discoveries and more often than not; highly controversial hypotheses.
Plants and animals interact mutualistically and antagonistically creating a complex
network of species relations to some extent suggesting a co evolutionary
network. In this study, I investigate two basic research questions: the first is
how plants utilize aposematic and cryptic colours? The second is how animals
are affected by the colour signals broadcasted by plants? By using the avian eye
model, I discover how visual signals/colours from plants are actually perceived,
and the effects of these signals on birds (not human) perception.
Aposematism and crypsis are common strategies utilized by animals, yet
little evidence is known of such occurrences in plants. Aposematic and cryptic
colours were evaluated by studying different colouration strategy through the
ontogeny of two native heteroblastic New Zealand plants: Pseudopanax
crassifolius and Elaeocarpus hookerianus. To determine the potential effect of
colour signals on animals, I investigated an evolutionary theory of leaf colours constraining the conspicuousness of their fruit colour counterparts. Based on
the available data, I also conducted a community level analysis about the
effects of fruit colours and specific avian frugivores that might be attracted
to them. Finally, I examined the fruit colour selection by a frugivorous seed
dispersing insect; the Wellington Tree Weta (Hemideina crassidens). My
result shows that aposematic and cryptic colours are successfully applied by
plants to either warn or remain inconspicuous from browsing herbivores. The
evidence I presented lends support to the Moa browsing hypothesis in relation to
constraining the conspicuousness of their fruit colour counterparts. Based on the cryptic plant colourations. However, the same level of selective interaction
could not be inferred for frugivore fruit colour selection based on avian vision. I
demonstrated that leaf reflectance does not constrain/influence the
conspicuousness of fruit colours. There was also no fruit colour diversity based
on geographical location. Fruit colour alone is not sufficient to influence a specific frugivore assemblage. Other environmental factors and species interaction must be
taken into account. Weta proved to possess colour vision capable of colour
perception even in low light conditions. Weta also consistently selected naturally
blue streaked and manipulated blue coloured fruits of Coprosma acerosa in a
binary test. This supports the idea of weta co- evolving with fruit colours of
certain divaricating plants in New Zealand. I suggest that the fruit colours of New
Zealand are shaped by the combined selection pressure from birds, lizards/geckos
and weta
Rapid mammal survey at Batu Caves, Selangor, Malaysia, with notes on other fauna
A number of isolated patches of forest in Malaysia are understudied but potentially host a high species diversity and endemism. The aim of this study was to assess the presence of mammal species at different locations on the limestone hills located at Batu Caves, Selangor. We undertook transects walks along trails in two locations around the hill for four hours maximum at sunset and sunrise for five days (24 to 26 June 2019 and 15 to 16 October 2019). We recorded six species of diurnal mammals: Callosciurus notatus, Macaca fascicularis, Sundasciurus hippurus, Sundasciurus lowii, Trachypithecus obscurus and Tupaia glis. We also spotted two species of nocturnal mammals: Leopoldamys sabanus, and Paradoxurus hermaphroditus, and heard one, Capricornis sumatraensis. Additionally, we recorded five species of nocturnal birds including four species of owls, Caprimulgus macrurus, Ninox scutulata, Otus lempiji, Otus lettia and Tyto alba. We also heard Argusianus argus and sighted Cuora amboinensis kamaroma. This short survey detected rare and endangered species emphasizing the need for future in-depth research in this isolated forest on limestone area
Attraction factors for Paederus fuscipes ' dispersal, a vector of Paederus dermatitis towards human residential premises
Paederus fuscipes, a vector of Paederus dermatitis in most tropical and subtropical countries of the world have a high prevalence in human dwellings due to their positively phototaxic behaviour which has caused a tremendous impact on human health. In this paper, P. fuscipes dispersal flights were studied for two seasons of the rice cultivation phases in residential premises built close to rice field areas (≈32-60 m and 164 m) in mainland Penang, Malaysia. We examined the effects of different light illuminance, building floor level and their association with rice stages as a focal cause of P. fuscipes dispersion from the rice fields towards human dwellings. The present study showed a significant interaction between different light illuminances and rice cultivation phases in attracting P. fuscipes to disperse and invade human dwellings. The highest number of P. fuscipes was captured near the bright light. P. fuscipes flights increased in line with each floor level, and the highest captures took place at higher building floor levels (levels 2 and 3) compared to lower building floor levels (ground floor and level 1) of a three storey apartment in both rice seasons. This finding not only conveys a better understanding on P. fuscipes dispersal pattern, but also draws public attention on the occurrence of dermatitis linearis caused by the Paederus beetles
Ontogenetic colour changes in an insular tree species: signalling to extinct browsing birds?
Summary • Animals often use colours to hide from predators (crypsis) or advertise defences (aposematism), but there is little evidence for colour-based defence in plants. • Here, we test whether ontogenetic changes in leaf colour of lancewood (Pseudopanax crassifolius) may have been part of a defensive strategy against flightless browsing birds called moa, which were once the only large herbivores in New Zealand. We tested this hypothesis by conducting spectrographic measurements on differentsized plants grown in a common garden. We also compared these results with observations on a closely related, derived species that evolved in the absence of moa on the Chatham Islands. • Spectrographic analyses showed that birds would have difficulty distinguishing seedling leaves against a background of leaf litter. Conversely, brightly coloured tissues flanking spines on sapling leaves are highly conspicuous to birds. Once above the reach of the tallest known moa, adults produce leaves that are typical in appearance to adult leaves. The Chatham Island species lacks ontogenetic colour changes entirely. • Overall, the results indicate that P. crassifolius goes through a remarkable series of colour changes during development, from cryptically coloured seedlings to aposematically coloured saplings, which may have formed a defensive strategy to protect against giant browsing birds
Contribution of rice fields to bird diversity in Peninsular Malaysia
There is a lack of documentation on rice fields as an important habitat that harbour different bird diversity compared to natural habitats in Peninsular Malaysia. This study investigated the contribution of rice fields to bird diversity in Peninsular Malaysia. A total of 83 rice fields and 53 natural habitats throughout Peninsular Malaysia were included in this study. Birds were observed and counted using point-count and mist-netting methods. A total of 10,707 bird-sightings, with rice fields, recorded 129 species from 15 orders and 50 families from October 2013 to December 2014; whilst natural forests recorded a total of 438 species from 14 order and 59 families from February 1992 to January 2015. Diversity t-test showed a significant difference in the species richness between the two different habitats (t=11.009, p<0.05). The high values of Δ+and ʌ+ in many areas of rice fields were significantly influenced by the presence of waterbirds, albeit low species richness. This temporary wetland habitat harbours land birds and waterbirds in one place. The data presented here suggest that waterbirds and migratory birds in rice fields contribute significantly to the total bird species found in Peninsular Malaysia
Assessment of residual bio-efficacy and persistence of Ipomoea cairica plant extract against Culex quinquefasciatus Say mosquito
Specification on residual action of a possible alternative insecticide derived from plant materials is important to determine minimum interval time between applications and
the environmental persistence of the biopesticides. The objective of this study is to evaluate crude acethonilic extract of Ipomoea cairica leaves for its residual and persistence effects against Culex quinquefasciatus larvae. Wild strain of Cx. quinquefasciatus larvae were
used for the purpose of the study. Two test designs, replenishment of water and without replenishment of water were carried out. For the first design, a total of 10ml of test solution containing Ip. cairica extracts was replenished daily and replaced with 10ml of distilled
water. For the second design, treatment water was maintained at 1500ml and only evaporated water was refilled. Larval mortality was recorded at 24 hours post-treatment after each
introduction period and trials were terminated when mortality rate falls below 50%. Adult emergences from survived larvae were observed and number of survivals was recorded. For the non-replenishment design, mortality rate significantly reduced to below 50% after 28
days, meanwhile for replenishment of water declined significantly after 21 days (P < 0.05). There was no adult emergence observed up to seven days for non-replenishment and first two days for replenishment of water design. The short period of residual effectiveness of crude
acethonilic extract of Ip. cairica leaves with high percentage of larval mortality on the first few days, endorses fewer concerns of having excess residues in the environment which may carry the risk of insecticide resistance and environmental pollution
Assessment of residual bio-efficacy and persistence of Ipomoea cairica plant extract against Culex quinquefasciatus Say mosquito
Specification on residual action of a possible alternative insecticide derived from plant materials is important to determine minimum interval time between applications and
the environmental persistence of the biopesticides. The objective of this study is to evaluate crude acethonilic extract of Ipomoea cairica leaves for its residual and persistence effects against Culex quinquefasciatus larvae. Wild strain of Cx. quinquefasciatus larvae were used for the purpose of the study. Two test designs, replenishment of water and without replenishment of water were carried out. For the first design, a total of 10ml of test solution containing Ip. cairica extracts was replenished daily and replaced with 10ml of distilled water. For the second design, treatment water was maintained at 1500ml and only evaporated water was refilled. Larval mortality was recorded at 24 hours post-treatment after each introduction period and trials were terminated when mortality rate falls below 50%. Adult emergences from survived larvae were observed and number of survivals was recorded. For
the non-replenishment design, mortality rate significantly reduced to below 50% after 28
days, meanwhile for replenishment of water declined significantly after 21 days (P < 0.05).
There was no adult emergence observed up to seven days for non-replenishment and first two
days for replenishment of water design. The short period of residual effectiveness of crude
acethonilic extract of Ip. cairica leaves with high percentage of larval mortality on the first
few days, endorses fewer concerns of having excess residues in the environment which may
carry the risk of insecticide resistance and environmental pollution
Colonized Aedes albopictus and its sexual performance in the wild: implications for SIT technology and containment
Background: Mating is a physiological process of crucial importance underlying the size and maintenance of
mosquito populations. In sterile and incompatible insect technologies (SIT and IIT), mating is essential for mass
production, persistence, and success of released individuals, and is a central parameter for judging the effectiveness
of SIT/IIT programs. Some mosquitoes have an enormous reproductive potential for both themselves and
pathogens and mating may contribute to persistence of infection in nature. As Aedes albopictus can transmit
flaviviruses both sexually and horizontally, and as infected insects are usually derived from laboratory colonies, we
investigated the implications of mating between a long-term laboratory colony of Ae. albopictus and wild
populations.
Methods: Through a series of mating experiments, we examined the reproductive outcomes of sexual cross-affinity
between laboratory-raised and wild adults of Ae. albopictus.
Results: The results indicated appreciable mating compatibility between laboratory-reared and wild adults, and
equivalent levels of egg production among reciprocal crosses. We also observed comparable larval eclosion in lab
females mated with wild males, and increased adult longevity in female offspring from wild females|×|laboratory
males crosses.
Conclusions: Taken together, these data suggest that Ae. albopictus can preserve its reproductive fitness over a
long period of time in the laboratory environment and has valuable attributes for SIT application. These
observations together with the ability to successfully inseminate heterospecific females indicate the potential of Ae.
albopictus to act as an ecological barrier if non-sterilized males are massively released in areas occupied by Aedes
aegypti. The observed substantial reproductive fitness combined with the capability to reproduce both, itself and
viruses illustrates the potential of Ae. albopictus to pose a serious threat if infected and released accidentally
EVALUATION OF SUBLETHAL EFFECTS OF Ipomoea cairica LINN. EXTRACT ON LIFE HISTORY TRAITS OF DENGUE VECTORS
A view from a different angle: investigating the significance of tattan spines from a small mammals’ visual point of view using imageJ
Rattans are one of the most unique and economically important plants for most tropical countries. There is however, a lack of interest in the specific study of the rattan spines. In this paper, we tested a new hypothesis concerning the functional role of rattan spines. We proposed that rattan spines also serve as a visual deterrent against herbivores or seed predators. In our proposed method we used an Imaging software, ImageJ, to measure the spine area of four species of rattan (Calamus insignis, Myrialepis schortechinii, Plectocomiopsis geminiflorus and Calamus caesius) from two different orientations (root to shoot and vice versa). Our results showed that rattan spines were very heterogeneous and highly variable between different species. One common trait that the rattan spines share is that spine area measurements of shoot to root (ShR) are larger than root to shoot (RH) orientation. We propose that the downwards spine angle might be specifically designed to discourage climbing leaf and seed predators