Our results demonstrate, how CO2 gating and thermoregulation helps in maintaining an ambient atmosphere inside the cocoon for the growth of pupa. Such natural architectural control of gas and temperature regulation could be helpful in developing energy saving structures and gas filters.
In this study, we have developed the
transdermal patch with chitosan-gelatin composite (C-GC) film
embedded with silver nanoparticles to enhance the flexibility and to increase the strength of cross links, respectively
We exploited the electrical properties of SCM to develop simple energy harvesting devices, which could operate low power electronic systems. Based on our findings, we propose that the temperature and humidity dependent electrical properties of the SCM could find applications in battery technology, bio-sensor, humidity sensor, steam engines and waste heat management
BIOMINERALISED SILICA-NANOPARTICLES DETECTION FROM MARINE DIATOM CULTURE MEDIAIJSIT Editor
Diatoms are unicellular algae the most spectacular among the microorganisms assemble into a
micro-shell with a distinct 3-D shape and pattern of fine nanoscale features. In this investigation, we present
results; Field Emission Scanning Electron Microscopy images show the presence of ordered arrays of silica
nanoparticles. A number of diatoms with partially opened valves were observed on the surface of the diatom,
which indicates that cell contents inside of diatoms could release the nanoparticles into the culture solution.
We believe that the film forming silica nanoparticles are either released by the diatoms during reproduction
or after cell death due to bacterial action. Further research will investigate whether the silica nanoparticles
are produced intracellular and then released or whether synthesis occurs in cell culture medium. This
approach provides an environmentally friendly means for fabricating silica nanoparticles for drug delivery,
disease diagnostics, artificial opal films, decorative coatings and novel optical materials.
In this study, we have developed the
transdermal patch with chitosan-gelatin composite (C-GC) film
embedded with silver nanoparticles to enhance the flexibility and to increase the strength of cross links, respectively
We exploited the electrical properties of SCM to develop simple energy harvesting devices, which could operate low power electronic systems. Based on our findings, we propose that the temperature and humidity dependent electrical properties of the SCM could find applications in battery technology, bio-sensor, humidity sensor, steam engines and waste heat management
BIOMINERALISED SILICA-NANOPARTICLES DETECTION FROM MARINE DIATOM CULTURE MEDIAIJSIT Editor
Diatoms are unicellular algae the most spectacular among the microorganisms assemble into a
micro-shell with a distinct 3-D shape and pattern of fine nanoscale features. In this investigation, we present
results; Field Emission Scanning Electron Microscopy images show the presence of ordered arrays of silica
nanoparticles. A number of diatoms with partially opened valves were observed on the surface of the diatom,
which indicates that cell contents inside of diatoms could release the nanoparticles into the culture solution.
We believe that the film forming silica nanoparticles are either released by the diatoms during reproduction
or after cell death due to bacterial action. Further research will investigate whether the silica nanoparticles
are produced intracellular and then released or whether synthesis occurs in cell culture medium. This
approach provides an environmentally friendly means for fabricating silica nanoparticles for drug delivery,
disease diagnostics, artificial opal films, decorative coatings and novel optical materials.
ABSTRACT- Bacterial Spores are robust and dormant life forms. The enthralling controlling system can maintain the spore dormancy for years yet allow the reappearance into active state within minutes thus provide resistance to the bacterium to heat, freezing, chemicals, radiations and other adverse environments. In spite of being considered as a spoilage and disease cause, Bacterial spores have been emerging as a miracle package. The survivability of bacterial spores under harsh conditions provides various solutions to human needs. Thus bacterial spores are drawing increased interest of the researchers as a solution to get work done under tough conditions. Bacterial spores have been exploited successfully to develop Biological Detection Systems as they can sense environmental changes and respond rapidly. Recently several spore based biosensors have been developed for the detection of different contaminants from different sources. More valued Probiotic Products based on bacterial spores have also been developed as spores can travel through GIT safely due to their resistant to digestive enzymes.Taking advantage of spore survivability, Pest Control Products based on spores are being used for making innovations in pest control. Different strains of Bacillus thuringiensis have been used to protect crops. More recent Bt genes have been expressed in transgenic plants to provide inherent resistance. Bacillus spores also have been exploited for vaccine delivery as a non- invasive and thermostable vaccine delivery system. Bioremediation and Electricity generation is also another applied corner of bacterial spores. This reevaluation highlights the potential of this simpler microbial structure and recent growth in the applied bacterial spore biology.
Key-words- Bacterial Spore, Biological detection system, Probiotics, Vaccine delivery, Bioremediation
Since hardened cuticle does not permit increase in body size or change in forms of insects during life cycle , shed there old cuticle several times and synthesize new one that are soft and flexible initially to allow for expansion, but subsequently harden to a tough exoskeleton by the process of tanning or Sclerotization.(chapman, 1975)
Sclerotization is not necessarily accompanied by pigmentation but tanning is always associated with pigment production.
It is nothing but cross links between the proteins of cuticle.
Final paper: Heat produced during respiration, Water Transport in the Stem an...Shaina Mavreen Villaroza
This is a 3-experiment-in-1 scientific paper done for our Bio 103.2: Fundamentals in Plant Biology Laboratory. The topics were heat produced during respiration using monggo seeds, water transport in the stem and lateral water movement using Kamantigue plant and eosin and fuchsin dye, and last experiment which is transpiration in plants.
A Transmission Electron Microscopic Study of the Olfactory Epithelium in Hill...AI Publications
Olfaction is primarily produced by the stimulation of receptor cells on the olfactory organ's neuroepithelial surface, surrounded by olfactory nerve fibres. Numerous fish life processes, including migration, communication, feeding, schooling, defence, and reproduction, depend heavily on olfactory signals and cues. The olfactory and reproductory systems are interconnected structurally and functionally, and puberty-related alterations in the olfactory epithelium are documented. The olfactory epithelium, which covers a large portion of the surface of the olfactory rosette, a structure found within the olfactory chambers on the fish rostrum, is where the olfactory receptor cells are situated. Although ultra structural transmission electron microscopic studies of the olfactory organ and bulb are carried out by some investigators but very sparse information is available on hillstream fishes and that is why this work has been undertaken to detail the structure of olfactory system in G. mullya by electron microscopy. Microvillous olfactory receptor cells are placed compactly adjacent to the supporting cell showing a junction complex : the zonula-ocludens. Polygonal white cells are present in between the basal cells and supporting cells. Small polyhedral basal cells lie just above the basal lamina of olfactory epithelium. Basal cells may be working as stem cells for regeneration of lost or damaged non sensory and goblet cells.
Life history of the Hog Plum Beetle, Podontia quatuordecimpunctata (Linnaeus,...Open Access Research Paper
Hog plum beetle (Podontia quatuordecimpunctata) is a serious pest of hog plum tree and both their adults and larvae defoliate the hog plum tree. However, its developmental information and proper identification as well as precise photographs of each developmental stages have not been well studied and recorded. Thus, the goal of this research was to establish the developmental characteristics of P. quatuordecimpunctata. Life history was conducted in laboratory conditions at an average temperature 28 °C ± 1.2 an average 65 ± 5% relative humidity (RH), and a light: dark ratio (12L : 12D). The female beetles were laid clusters of eggs in numerous layers, with 9 to 53 eggs in each cluster. The durations of each developmental stage were 6.16±0.93, 3.16±0.24, 3.29±0.25, 3.21±0.33, 4.54±0.33, 5.54±0.49, and 20.92±2.7 days for the incubation, 1st instar, 2nd instar, 3rd instar, 4th instar, pre pupa, and pupa, respectively. The longevity of male and female adult beetles was found to be 42.33±6.6 days and 50.66±9.8 days, respectively. Results revealed that this study will be a valuable source of biological information for a better understanding and management of this pest species. Check out more by following link https://innspub.net/life-history-of-the-hog-plum-beetle-podontia-quatuordecimpunctata-linnaeus-1767-coleoptera-chrysomelidae-with-photographs-of-each-developmental-stage/
Sericulture is the silk producing agro-industry
India is the second largest silk producing country in the world after china.
Sericulture or silk farming is the rearing of silkworm for the production of silk
Silk is known as queen of textile and biosteel because of its strength
A Chinese tale of the discovery of the silkworm’s silk was by an ancient empress Lei Zu , the wife of the emperor.
She was drinking tea under tree, when a silk cocoon fell into her tea cup and the hot tea loosened the long strand of silk
As she it out, and started to wrap the silk thread around her flinger, she felt the warm sensation
When silk ran out, an larva appeared. She realized that it was this larva that produces the silk
Soon, she taught this to people and it became wide spread
ABSTRACT- Bacterial Spores are robust and dormant life forms. The enthralling controlling system can maintain the spore dormancy for years yet allow the reappearance into active state within minutes thus provide resistance to the bacterium to heat, freezing, chemicals, radiations and other adverse environments. In spite of being considered as a spoilage and disease cause, Bacterial spores have been emerging as a miracle package. The survivability of bacterial spores under harsh conditions provides various solutions to human needs. Thus bacterial spores are drawing increased interest of the researchers as a solution to get work done under tough conditions. Bacterial spores have been exploited successfully to develop Biological Detection Systems as they can sense environmental changes and respond rapidly. Recently several spore based biosensors have been developed for the detection of different contaminants from different sources. More valued Probiotic Products based on bacterial spores have also been developed as spores can travel through GIT safely due to their resistant to digestive enzymes.Taking advantage of spore survivability, Pest Control Products based on spores are being used for making innovations in pest control. Different strains of Bacillus thuringiensis have been used to protect crops. More recent Bt genes have been expressed in transgenic plants to provide inherent resistance. Bacillus spores also have been exploited for vaccine delivery as a non- invasive and thermostable vaccine delivery system. Bioremediation and Electricity generation is also another applied corner of bacterial spores. This reevaluation highlights the potential of this simpler microbial structure and recent growth in the applied bacterial spore biology.
Key-words- Bacterial Spore, Biological detection system, Probiotics, Vaccine delivery, Bioremediation
Since hardened cuticle does not permit increase in body size or change in forms of insects during life cycle , shed there old cuticle several times and synthesize new one that are soft and flexible initially to allow for expansion, but subsequently harden to a tough exoskeleton by the process of tanning or Sclerotization.(chapman, 1975)
Sclerotization is not necessarily accompanied by pigmentation but tanning is always associated with pigment production.
It is nothing but cross links between the proteins of cuticle.
Final paper: Heat produced during respiration, Water Transport in the Stem an...Shaina Mavreen Villaroza
This is a 3-experiment-in-1 scientific paper done for our Bio 103.2: Fundamentals in Plant Biology Laboratory. The topics were heat produced during respiration using monggo seeds, water transport in the stem and lateral water movement using Kamantigue plant and eosin and fuchsin dye, and last experiment which is transpiration in plants.
A Transmission Electron Microscopic Study of the Olfactory Epithelium in Hill...AI Publications
Olfaction is primarily produced by the stimulation of receptor cells on the olfactory organ's neuroepithelial surface, surrounded by olfactory nerve fibres. Numerous fish life processes, including migration, communication, feeding, schooling, defence, and reproduction, depend heavily on olfactory signals and cues. The olfactory and reproductory systems are interconnected structurally and functionally, and puberty-related alterations in the olfactory epithelium are documented. The olfactory epithelium, which covers a large portion of the surface of the olfactory rosette, a structure found within the olfactory chambers on the fish rostrum, is where the olfactory receptor cells are situated. Although ultra structural transmission electron microscopic studies of the olfactory organ and bulb are carried out by some investigators but very sparse information is available on hillstream fishes and that is why this work has been undertaken to detail the structure of olfactory system in G. mullya by electron microscopy. Microvillous olfactory receptor cells are placed compactly adjacent to the supporting cell showing a junction complex : the zonula-ocludens. Polygonal white cells are present in between the basal cells and supporting cells. Small polyhedral basal cells lie just above the basal lamina of olfactory epithelium. Basal cells may be working as stem cells for regeneration of lost or damaged non sensory and goblet cells.
Life history of the Hog Plum Beetle, Podontia quatuordecimpunctata (Linnaeus,...Open Access Research Paper
Hog plum beetle (Podontia quatuordecimpunctata) is a serious pest of hog plum tree and both their adults and larvae defoliate the hog plum tree. However, its developmental information and proper identification as well as precise photographs of each developmental stages have not been well studied and recorded. Thus, the goal of this research was to establish the developmental characteristics of P. quatuordecimpunctata. Life history was conducted in laboratory conditions at an average temperature 28 °C ± 1.2 an average 65 ± 5% relative humidity (RH), and a light: dark ratio (12L : 12D). The female beetles were laid clusters of eggs in numerous layers, with 9 to 53 eggs in each cluster. The durations of each developmental stage were 6.16±0.93, 3.16±0.24, 3.29±0.25, 3.21±0.33, 4.54±0.33, 5.54±0.49, and 20.92±2.7 days for the incubation, 1st instar, 2nd instar, 3rd instar, 4th instar, pre pupa, and pupa, respectively. The longevity of male and female adult beetles was found to be 42.33±6.6 days and 50.66±9.8 days, respectively. Results revealed that this study will be a valuable source of biological information for a better understanding and management of this pest species. Check out more by following link https://innspub.net/life-history-of-the-hog-plum-beetle-podontia-quatuordecimpunctata-linnaeus-1767-coleoptera-chrysomelidae-with-photographs-of-each-developmental-stage/
Sericulture is the silk producing agro-industry
India is the second largest silk producing country in the world after china.
Sericulture or silk farming is the rearing of silkworm for the production of silk
Silk is known as queen of textile and biosteel because of its strength
A Chinese tale of the discovery of the silkworm’s silk was by an ancient empress Lei Zu , the wife of the emperor.
She was drinking tea under tree, when a silk cocoon fell into her tea cup and the hot tea loosened the long strand of silk
As she it out, and started to wrap the silk thread around her flinger, she felt the warm sensation
When silk ran out, an larva appeared. She realized that it was this larva that produces the silk
Soon, she taught this to people and it became wide spread
ISI 2024: Application Form (Extended), Exam Date (Out), EligibilitySciAstra
The Indian Statistical Institute (ISI) has extended its application deadline for 2024 admissions to April 2. Known for its excellence in statistics and related fields, ISI offers a range of programs from Bachelor's to Junior Research Fellowships. The admission test is scheduled for May 12, 2024. Eligibility varies by program, generally requiring a background in Mathematics and English for undergraduate courses and specific degrees for postgraduate and research positions. Application fees are ₹1500 for male general category applicants and ₹1000 for females. Applications are open to Indian and OCI candidates.
ESR spectroscopy in liquid food and beverages.pptxPRIYANKA PATEL
With increasing population, people need to rely on packaged food stuffs. Packaging of food materials requires the preservation of food. There are various methods for the treatment of food to preserve them and irradiation treatment of food is one of them. It is the most common and the most harmless method for the food preservation as it does not alter the necessary micronutrients of food materials. Although irradiated food doesn’t cause any harm to the human health but still the quality assessment of food is required to provide consumers with necessary information about the food. ESR spectroscopy is the most sophisticated way to investigate the quality of the food and the free radicals induced during the processing of the food. ESR spin trapping technique is useful for the detection of highly unstable radicals in the food. The antioxidant capability of liquid food and beverages in mainly performed by spin trapping technique.
Richard's aventures in two entangled wonderlandsRichard Gill
Since the loophole-free Bell experiments of 2020 and the Nobel prizes in physics of 2022, critics of Bell's work have retreated to the fortress of super-determinism. Now, super-determinism is a derogatory word - it just means "determinism". Palmer, Hance and Hossenfelder argue that quantum mechanics and determinism are not incompatible, using a sophisticated mathematical construction based on a subtle thinning of allowed states and measurements in quantum mechanics, such that what is left appears to make Bell's argument fail, without altering the empirical predictions of quantum mechanics. I think however that it is a smoke screen, and the slogan "lost in math" comes to my mind. I will discuss some other recent disproofs of Bell's theorem using the language of causality based on causal graphs. Causal thinking is also central to law and justice. I will mention surprising connections to my work on serial killer nurse cases, in particular the Dutch case of Lucia de Berk and the current UK case of Lucy Letby.
Professional air quality monitoring systems provide immediate, on-site data for analysis, compliance, and decision-making.
Monitor common gases, weather parameters, particulates.
Seminar of U.V. Spectroscopy by SAMIR PANDASAMIR PANDA
Spectroscopy is a branch of science dealing the study of interaction of electromagnetic radiation with matter.
Ultraviolet-visible spectroscopy refers to absorption spectroscopy or reflect spectroscopy in the UV-VIS spectral region.
Ultraviolet-visible spectroscopy is an analytical method that can measure the amount of light received by the analyte.
Deep Behavioral Phenotyping in Systems Neuroscience for Functional Atlasing a...Ana Luísa Pinho
Functional Magnetic Resonance Imaging (fMRI) provides means to characterize brain activations in response to behavior. However, cognitive neuroscience has been limited to group-level effects referring to the performance of specific tasks. To obtain the functional profile of elementary cognitive mechanisms, the combination of brain responses to many tasks is required. Yet, to date, both structural atlases and parcellation-based activations do not fully account for cognitive function and still present several limitations. Further, they do not adapt overall to individual characteristics. In this talk, I will give an account of deep-behavioral phenotyping strategies, namely data-driven methods in large task-fMRI datasets, to optimize functional brain-data collection and improve inference of effects-of-interest related to mental processes. Key to this approach is the employment of fast multi-functional paradigms rich on features that can be well parametrized and, consequently, facilitate the creation of psycho-physiological constructs to be modelled with imaging data. Particular emphasis will be given to music stimuli when studying high-order cognitive mechanisms, due to their ecological nature and quality to enable complex behavior compounded by discrete entities. I will also discuss how deep-behavioral phenotyping and individualized models applied to neuroimaging data can better account for the subject-specific organization of domain-general cognitive systems in the human brain. Finally, the accumulation of functional brain signatures brings the possibility to clarify relationships among tasks and create a univocal link between brain systems and mental functions through: (1) the development of ontologies proposing an organization of cognitive processes; and (2) brain-network taxonomies describing functional specialization. To this end, tools to improve commensurability in cognitive science are necessary, such as public repositories, ontology-based platforms and automated meta-analysis tools. I will thus discuss some brain-atlasing resources currently under development, and their applicability in cognitive as well as clinical neuroscience.
Salas, V. (2024) "John of St. Thomas (Poinsot) on the Science of Sacred Theol...Studia Poinsotiana
I Introduction
II Subalternation and Theology
III Theology and Dogmatic Declarations
IV The Mixed Principles of Theology
V Virtual Revelation: The Unity of Theology
VI Theology as a Natural Science
VII Theology’s Certitude
VIII Conclusion
Notes
Bibliography
All the contents are fully attributable to the author, Doctor Victor Salas. Should you wish to get this text republished, get in touch with the author or the editorial committee of the Studia Poinsotiana. Insofar as possible, we will be happy to broker your contact.
hematic appreciation test is a psychological assessment tool used to measure an individual's appreciation and understanding of specific themes or topics. This test helps to evaluate an individual's ability to connect different ideas and concepts within a given theme, as well as their overall comprehension and interpretation skills. The results of the test can provide valuable insights into an individual's cognitive abilities, creativity, and critical thinking skills
Travis Hills' Endeavors in Minnesota: Fostering Environmental and Economic Pr...Travis Hills MN
Travis Hills of Minnesota developed a method to convert waste into high-value dry fertilizer, significantly enriching soil quality. By providing farmers with a valuable resource derived from waste, Travis Hills helps enhance farm profitability while promoting environmental stewardship. Travis Hills' sustainable practices lead to cost savings and increased revenue for farmers by improving resource efficiency and reducing waste.
The ability to recreate computational results with minimal effort and actionable metrics provides a solid foundation for scientific research and software development. When people can replicate an analysis at the touch of a button using open-source software, open data, and methods to assess and compare proposals, it significantly eases verification of results, engagement with a diverse range of contributors, and progress. However, we have yet to fully achieve this; there are still many sociotechnical frictions.
Inspired by David Donoho's vision, this talk aims to revisit the three crucial pillars of frictionless reproducibility (data sharing, code sharing, and competitive challenges) with the perspective of deep software variability.
Our observation is that multiple layers — hardware, operating systems, third-party libraries, software versions, input data, compile-time options, and parameters — are subject to variability that exacerbates frictions but is also essential for achieving robust, generalizable results and fostering innovation. I will first review the literature, providing evidence of how the complex variability interactions across these layers affect qualitative and quantitative software properties, thereby complicating the reproduction and replication of scientific studies in various fields.
I will then present some software engineering and AI techniques that can support the strategic exploration of variability spaces. These include the use of abstractions and models (e.g., feature models), sampling strategies (e.g., uniform, random), cost-effective measurements (e.g., incremental build of software configurations), and dimensionality reduction methods (e.g., transfer learning, feature selection, software debloating).
I will finally argue that deep variability is both the problem and solution of frictionless reproducibility, calling the software science community to develop new methods and tools to manage variability and foster reproducibility in software systems.
Exposé invité Journées Nationales du GDR GPL 2024
Observation of Io’s Resurfacing via Plume Deposition Using Ground-based Adapt...Sérgio Sacani
Since volcanic activity was first discovered on Io from Voyager images in 1979, changes
on Io’s surface have been monitored from both spacecraft and ground-based telescopes.
Here, we present the highest spatial resolution images of Io ever obtained from a groundbased telescope. These images, acquired by the SHARK-VIS instrument on the Large
Binocular Telescope, show evidence of a major resurfacing event on Io’s trailing hemisphere. When compared to the most recent spacecraft images, the SHARK-VIS images
show that a plume deposit from a powerful eruption at Pillan Patera has covered part
of the long-lived Pele plume deposit. Although this type of resurfacing event may be common on Io, few have been detected due to the rarity of spacecraft visits and the previously low spatial resolution available from Earth-based telescopes. The SHARK-VIS instrument ushers in a new era of high resolution imaging of Io’s surface using adaptive
optics at visible wavelengths.
Observation of Io’s Resurfacing via Plume Deposition Using Ground-based Adapt...
Carbondioxide gating in silk cocoon
1. ARTICLE
Carbondioxide Gating in Silk Cocoon
Manas Roy • Sunil Kumar Meena • Tejas Sanjeev Kusurkar •
Sushil Kumar Singh • Niroj Kumar Sethy • Kalpana Bhargava •
Sabyasachi Sarkar • Mainak Das
Received: 19 April 2012 / Accepted: 26 June 2012
Ó The Author(s) 2012. This article is published with open access at Springerlink.com
Abstract Silk is the generic name given to the fibrous
proteins spun by a number of arthropods. During meta-
morphosis, the larva of the silk producing arthropods
excrete silk-fiber from its mouth and spun it around the
body to form a protective structure called cocoon. An adult
moth emerges out from the cocoon after the dormant phase
(pupal phase) varying from 2 weeks to 9 months. It is
intriguing how CO2/O2 and ambient temperature are reg-
ulated inside the cocoon during the development of the
pupa. Here we show that the cocoon membrane is asym-
metric, it allows preferential gating of CO2 from inside to
outside and it regulates a physiological temperature inside
the cocoon irrespective of the surrounding environment
temperature. We demonstrate that under simulating CO2
rich external environment, the CO2 does not diffuse inside
the cocoon. Whereas, when CO2 was injected inside the
cocoon, it diffuses out in 20 s, indicating gating of CO2
from inside to outside the membrane. Removal of the
calcium oxalate hydrate crystals which are naturally pres-
ent on the outer surface of the cocoon affected the com-
plete blockade of CO2 flow from outside to inside
suggesting its role to trap most of the CO2 as hydrogen
bonded bicarbonate on the surface. The weaved silk of the
cocoon worked as the second barrier to prevent residual
CO2 passage. Furthermore, we show that under two
extreme natural temperature regime of 5 and 50 °C, a
temperature of 25 and 34 °C respectively were maintained
inside the cocoons. Our results demonstrate, how CO2
gating and thermoregulation helps in maintaining an
ambient atmosphere inside the cocoon for the growth of
pupa. Such natural architectural control of gas and tem-
perature regulation could be helpful in developing energy
saving structures and gas filters.
1 Introduction
Silk is the generic name given to the fibrous proteins
produced by a number of arthropods. Most of these silk
producing arthropods have four different stages in their life
cycle. The four different stages are as follows: adult moth,
eggs, larva (feeding phase) and pupa (dormant phase). An
adult moth lay eggs. These eggs develop to form larva. The
larval phase is the feeding phase. During this phase, the
larva feeds extensively on the leaves and start excreting
silk-fiber from its mouth and spun it around the body to
form a protective structure called cocoon. When the larva
enclosed itself inside the cocoon, it goes into the dormant
phase called pupal phase. This dormant phase varies from
species to species and may last from few weeks to as long
M. Roy Á S. Sarkar (&)
Department of Chemistry, Indian Institute of Technology
Kanpur, Kanpur 208016, Uttar Pradesh, India
e-mail: protozyme@gmail.com
S. K. Meena
Department of Electrical Engineering, Indian Institute
of Technology Kanpur, Kanpur 208016, Uttar Pradesh, India
T. S. Kusurkar Á M. Das (&)
Department of Biological Sciences and Bioengineering,
Indian Institute of Technology Kanpur, Kanpur 208016,
Uttar Pradesh, India
e-mail: mainakd@iitk.ac.in
S. K. Singh
Solid State Physics Laboratory, Defense Research Development
Organization, Lucknow Road, Timarpur, Delhi 110054, India
N. K. Sethy Á K. Bhargava
Defense Institute of Physiology and Allied Sciences,
Defense Research Development Organization, Lucknow Road,
Timarpur, Delhi 110054, India
123
Biointerphases (2012) 7:45
DOI 10.1007/s13758-012-0045-7
2. as 9 months. Once the dormant phase is over, the adult
moth emerges out of the cocoon. This whole transition in
the life cycle of the silk producing arthropods is termed
as metamorphosis (Fig. 1). The commercial silk fiber is
derived from the cocoon after removal of the pupa [1–3].
Silk fiber consists of two main proteins, fibroin and seri-
cin. Fibroin is the structural protein and sericin is a glue like
protein surrounding the fibroin protein. Silk fibers are con-
glutinated with a non-woven structure by sericin bonding
matrix. This structural strategy must have evolved for a
protective function to safe guard the development of the pupa
within the silkworm cocoons, which have additional com-
posite materials to augment the protection. Through evolu-
tionary pressures over millions of years, cocoons have
optimized their composite structure to function for the full
development of silkworm pupa in the process of metamor-
phosis to moths. This process varied from few weeks to
several months depending on the types of cocoons. During
this time, cocoons are exposed to a wide range of threats such
as physical attack from animals, birds or insects including
bacteria. Besides, such composite structure of cocoons pro-
tect the pupa inside from harsh environmental conditions. It
is of interest to understand how silk cocoon membrane per-
forms such activity based on their porous structure,
mechanical strength, and its potential for control of the
gaseous environment and temperature inside. One should try
to understand, how life inside a narrow confinement of
cocoon breath for so many days and the most important
aspect here is to address the structure of cocoons which is
optimized to function in such a manner [4–18].
The cocoon offers an physically isolated space for the
development of the pupa. In such an isolation, it is of
paramount importance that the living species can effec-
tively respire. To do so, the cocoon membrane should be
able to flush out CO2 from the confined chamber and
allows uninterrupted inflow of fresh air. In addition to this
directional flow of air and CO2 across the cocoon mem-
brane, effective thermoregulation is essential for its sur-
vival. Literature remain almost silent on the issue of such
directional gaseous flow across the cocoon membrane [19].
Though temperature regulation studies have been attemp-
ted [9, 20, 21]. Therefore it is of great interest to under-
stand this important feature of cocoon which impart a
conducive environment for the survival of the pupa.
Here we show for the first time that the cocoon mem-
brane is asymmetric and acts as a gas filter allowing gating
(unidirectional flow) of CO2 from inside to outside the
cocoon. In contrast, the membrane promotes bidirectional
flow of O2. Further, the membrane acts as a thermo-regu-
lator which regulates ambient temperature inside the
cocoon. Bio-mimicry of such regulatory membrane using
modern nano-structural materials could lead to the devel-
opment of environment friendly, energy saving building
materials and gas filters.
2 Materials and Methods
2.1 Procurement and Processing of the Native Cocoons
The semi-domesticated, reared variety of DABA Tasar
silkworm (Antheraea mylitta Drury) which are reared in
the state of Chhattisgarh of India was used for this study.
These are naturally reared on Saja (Terminalia tomentosa)
Fig. 1 The metamorphosis in
the life-cycle of the Tasar
silkworm (Antheraea mylitta
Drury): a An adult moth. b Eggs
laid by an adult moth. c Fully
developed pupa taken out from
the cocoon. d Adult moth
emerged out from the silk
cocoon
Page 2 of 11 Biointerphases (2012) 7:45
123
3. & Arjuna (Terminalia arjuna) trees. Both these trees are
rich source of oxalic acid and tannins. The silkworm larva
fed on the leaves of these trees. Generally at the lower
altitudes (50–30 m AMSL), it is reared three times a year
in July–August (Rainy cocoon crop), September–October
(Autumn cocoon crop) and November–December (Winter
cocoon crop). We procured the cocoons from all three
seasons and used them for our experiments. The procured
cocoons were stored in dry cabinets. Before starting the
experiments, all the cocoons were kept in a incubator
(30 °C, Relative humidity 80 %) for 2 h. The pupa were
removed from all the cocoons which were used for the
experiments by giving a very small incision at the top.
2.2 Leaching of the Calcium Oxalate from the Outer
Surface of the Cocoon
The cocoons were first treated with dilute hydrochloric acid
(3 N) and after half an hour the cocoons were taken out and
immersed in sodium-EDTA solution (0.4 M) stirred for
15 min and then these cocoons were taken out and washed
thoroughly with plentiful of running water. These were
then dried under ambient condition. These treated cocoons
were subjected to microscopic analysis and gating experi-
ments for comparison with the data obtained from native,
raw cocoons. The leached out solution of cocoon has been
treated to get back the calcium oxalate monohydrate which
was washed out from the outer surface of the cocoons by
acid treatment. It is well known that calcium oxalate can be
readily solubilized in water by adding dilute hydrochloric
acid, where by the oxalate ion gets protonated with the
separation of oxalic acid and in forming calcium chloride.
Therefore in order to recover calcium oxalate from this
solution, it was first neutralized by adding ammonia solu-
tion under warm condition and this ammoniacal solution on
digestion in the water bath resulted in the white precipitate
of calcium oxalate monohydrate. This mixture was allowed
to cool on standing and the precipitate was filtered off,
washed couple of times with cold water and dried. This
white residue is subjected to X-ray diffraction (XRD) and
fourier transform infrared spectroscopy (FTIR) studies.
2.3 Scanning Electron Microscopy (SEM) and Energy
Dispersive Spectroscopic (EDAX) Analysis
SEM analysis was done using SUPRA 40VP field emission
scanning electron microscope (Carl Zeiss NTS GmbH,
Oberkochen(Germany)equippedwithEDAXanalysisfacility.
2.4 X-Ray Diffraction Studies (XRD)
XRD analysis was done using PANalytical X’Pert PRO
diffractometer using CuKa radiation.
2.5 Fourier Transform Infrared Spectrometer (FTIR)
FTIR spectra of the samples were done on a Bruker fourier
transform infrared spectrometer (Vector 22 model). This
model works with a globar lamp source, a KBr beam
splitter, and DTGS/KBr detector. The spectra were recorded
in the solid state in KBr pellets. In the employed configu-
ration, it has been possible to cover the 400–4,000 cm-1
range with a resolution of 4 cm-1
.
2.6 Studying the Flow of CO2 Across the Cocoon
Membrane
The set-up for detecting the flow of CO2 across the cocoon
membrane has been described in Fig. 2a, b.
2.7 Studying the Flow of O2 Across the Cocoon
Membrane
Figure 2c, d describes the set-up to study the flow of O2
across the cocoon membrane.
2.8 Temperature Measurement
We cut open the cocoon at the top and removed the dead pupa
and sealed the cocoon by placing a thermocouple probe
(Kiethley 6517B) inside the cocoon. Before placing the
cocoons in the incubator, we measured the initial temperature
of the cocoons using the thermocouple probe. It is our con-
sistent observation that the ambient temperature inside the
cocoon was 2 °C more than the room temperature. All the
measurements were made at a room temperature of 26 °C.
2.9 Statistical Analysis
All the statistical significance were calculated using ‘‘two-
sample Students t test’’. The significance level was indicated
byp value and significance was determined at threedifferent p
values (p = 0.001, 0.01, 0.05). All the results were expressed
as mean ± standard error, n = number of cocoons.
3 Results and Discussion
3.1 Visual Observation
On visual observation, the outer surface of the cocoon
exhibited extremely rough morphology as compared to the
inner surface (Fig. 3a).
3.2 SEM Analysis of the Native Cocoon
On SEM analysis, we found the presence of large number of
cuboidal shaped crystals on the outer surface of silk fibers
Biointerphases (2012) 7:45 Page 3 of 11
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4. (Fig. 3b–d). These varied size crystals were randomly stacked
over one another like tiles covering the silk thread and later
identified as the crystals of calcium oxalate monohydrate by
XRD and FTIR studies. In contrast, the inner surface of the
cocoon was found to be extremely smooth (Fig. 3 a) with
intertwinedcross-network ofthe fibers(Fig. 3e,f).Hardly any
crystals were observed on the inner surface of the cocoon.
3.3 SEM Analysis of the Cocoons After Washing
Away the Calcium Oxalate Monohydrate Layer
from the Outer Surface
Figure 3g, h showed the SEM images of the outer surface
of the treated cocoons. On comparison with the outer sur-
face of the untreated cocoons, it is clearly demonstrated
Fig. 2 a Schematic experimental set-up to study the diffusion of CO2
from inside to outside the cocoon: The dead pupa was removed from the
cocoon by making a narrow cut at the top of the cocoon and this cut was
sealed by wrapping with a narrow band of para-film keeping the surface
intact. A narrow glass tube was inserted on the top of the cocoon to
supply CO2 gas. The cocoon was allowed to hang in an air-tight beaker
container containing Ca(OH)2 solution. CO2 was generated as shown in
the figure using CaCO3 and dilute HCl solution. As soon as CO2 gas was
allowed to pass inside the cocoon through the glass tube, the CO2 started
diffusing out of the cocoon. We recorded the time as soon as we
observed the appearance of milky white smear on the Ca(OH)2 solution.
b Schematic experimental set-up to study the diffusion of CO2 from
outside to inside the cocoon: the dead pupa was removed from the
cocoon and the cut was sealed by para-film. A narrow glass tube was
inserted into the cocoon and the other end of the tube was immersed in
Ca(OH)2 solution in a beaker which was maintained under the blanket
of argon flow to prevent contamination from aerial carbon dioxide. The
cocoon was hung in an air tight beaker having an inlet for the passage of
CO2 with a narrow hole at a distance for free gas passage. Sometimes we
blocked this narrow passage to generate CO2 pressure on the outer
surface of the cocoon. The generated CO2 gas was allowed to pass for
more than 10 min. We performed this experiment on 11 different
cocoons (n = 11) and in each case the Ca(OH)2 solution remained
unaffected. c Schematic experimental set-up to study the diffusion of O2
from inside to outside the cocoon: the experimental set-up was similar
to the CO2 detection setup. Except O2 detection was done by using
sodium pyrogallate as an absorbent. On absorbing O2, the color of the
sodium pyrogallate solution changes to dark brown. This experiment
needed an extremely inert environment. Inert environment was created
by purging the set-up with excess argon gas. When under argon purging
the pyrogallol solution remained pale yellow, the valve of the oxygen
cylinder was opened very gently and within minutes the indicator
solution turned deep-brown showing the diffusion of O2 from inside to
outside of the cocoon membrane. The experiment was repeated with 10
different cocoons showing the same result. d Schematic experimental
set-up to study the diffusion of O2 from outside to inside the cocoon: the
preparation of empty cocoon was done as described earlier. The alkaline
pyrogallol solution was placed under constant argon purging to avoid
interaction with air. The set up was first purged with argon for 30 min
and then a flow of oxygen gas was introduced. Within minutes the pale
yellow pyrogallol solution turned deep brown. The experiment was
repeated with 10 different cocoons showing the same result
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5. that the calcium oxalate monohydrate layer has completely
leached away from the outer surface of the cocoon. As
expected, there is hardly any noticeable change in the inner
surface of the treated cocoon compared to that with the
untreated cocoons (Fig. 3i).
3.4 XRD Analysis
Using XRD analysis, we found that the cuboidal crystals on
the outer surface of the cocoon are of calcium oxalate
monohydrate (Fig. 4). We first obtained the XRD pattern of
pure calcium oxalate monohydrate. Next we obtained the
XRD pattern of calcium oxalate monohydrate scrapped out
from the untreated cocoon. Afterward we treated the
cocoon with dilute acidified (3 N HCl) solution followed
by EDTA (0.4 M) solution with the theme to leach out the
calcium oxalate monohydrate from the outer surface of the
cocoon. The acid washed solution in the leaching process
was concentrated to reduce volume and the extra acid is
being neutralized by adding ammonia wherein the leached
out calcium oxalate monohydrate is re-precipitated out
under warm condition for favorable granular growth. This
Fig. 3 a One half of the cocoon (horizontal cut, average length
5.0 cm) showing the inner (smooth) and the outer (coarse) surface
morphology. b SEM image: the outer surface of the cocoon exhibiting
the rough morphology. The particulate covering the surface of the silk
fibers. c A high resolution SEM image of the outer surface of the
cocoon showing the uneven texture due to the presence of crystals of
different sizes. d At higher resolution SEM image cuboidal shaped
crystals were irregularly stacked over one another. Dimension of the
cuboidal crystals: the crystals were of approximately 1–2 l in length
and 1–2 l in breadth. e The SEM image of the inner surface of the
cocoon exhibits a smooth texture with intertwined silk fibers
crisscross’ the surface. f It shows the inner surface between the
fibers with irregular gaps with few particulates. There were very few
crystals found in the inner surface of the cocoon. g SEM image of the
outer surface of the cocoon after the calcium oxalate monohydrate
layer has been leached out. The outer surface of the cocoon showing
smooth texture after removal of the calcium oxalate monohydrate
crystals. h Outer surface of the treated cocoon at a high resolution
SEM image showing the spots where calcium oxalate monohydrate
crystals were embedded in the native cocoon prior to leaching. i SEM
image of the inner surface of the cocoon after leaching away of the
calcium oxalate monohydrate from the outer surface. As noticed
earlier in the untreated cocoon, the SEM image of the inner surface of
the cocoon exhibits a smooth texture with intertwined silk fibers criss-
crossing the surface
Biointerphases (2012) 7:45 Page 5 of 11
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6. is filtered, washed with cold water and dried under ambient
condition and subjected to XRD analysis. There is no doubt
about the identity of this white precipitate as calcium
oxalate monohydrate whose diffraction pattern is super
imposable with the XRD pattern of pure calcium oxalate
monohydrate and also with the calcium oxalate scrapped
out from the untreated cocoon. Based on this result, we
concluded that calcium oxalate monohydrate crystals are
distributed differentially on the outer and the inner surfaces
of the cocoon.
Fig. 3 continued
Page 6 of 11 Biointerphases (2012) 7:45
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7. 3.5 FTIR Analysis
We further validated the presence of calcium oxalate
monohydrate crystals on the outer surface of the cocoon
using FTIR spectroscopy (Fig. 5a–c). FTIR spectrum of
pure calcium oxalate monohydrate is shown in Fig. 5a.
FTIR spectrum of the outer surface of the cocoon is
shown in Fig. 5b. FTIR spectrum of chemically leached
calcium oxalate from outer surface of cocoon is shown
in Fig. 5c. The very strong vibration at 1,632 cm-1
is
assigned to asymmetric ma(CO) vibration and the strong
vibration at 1,316 cm-1
is assigned as symmetric ms(CO)
vibration of the oxalate group. The other low energy
vibrations are related to mixed vibrations arising from
stretching and bending mode including water in the lattice
and ring deformation. Similarly the higher wave number
broad absorption around 3,447 cm-1
as observed from the
raw outer surface of the cocoon shows the presence of
other functional groups in addition to the vibration arising
out of m(OH) due to the presence of water. The weak
vibrations lower than 3,000 cm-1
in raw cocoon strongly
suggest the presence of some m(CH) and the background
absorption in the 1,600–1,000 cm-1
region supports the
presence of other vibrations related to silk residue. This is
plausible as scrapping of the calcium oxalates from the
surface may result a part of silk along with it. Such
vibrations are absent in the chemically leached out cal-
cium oxalate and also from pure calcium oxalate as seen
in their respective IR spectrum where the dominant peaks
related to the vibration of oxalate appeared. Thus FTIR
spectroscopy supports the presence of calcium oxalate
hydrate on the outer surface of the cocoons which is
confirmed by XRD study [22].
3.6 EDAX Analysis
The EDAX analysis of the outer and the inner surface of
the cocoon membrane shows the presence of 24 different
elements (Fig. 6). These elements are distributed unequally
on the outer and the inner surface of the cocoon membrane.
Fig. 4 Super imposed XRD pattern of pure calcium oxalate mono-
hydrate, calcium oxalate monohydrate scrapped out from the
untreated cocoon and calcium oxalate recovered from the leached
out solution obtained from the outer surface of the cocoon
Fig. 5 a FTIR spectra of pure calcium oxalate monohydrate. b FTIR
spectra of calcium oxalate monohydrate scrapped out from the
untreated cocoon. c FTIR spectra of the calcium oxalate monohydrate
recovered from the leached out solution obtained from the outer
surface of the cocoon
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8. Figure 6 shows thepresence of 4 major elements (C, N, O and
Ca) and 20 trace elements (Na, Mg, Cl, K, V, Mn, Fe, Co, Ni,
Cu, Ga, As, Se, Br, I, Ce, Os, Pt, Hg, Pb) in varying con-
centrations on both theouter and inner surfaces of thecocoon.
Data werecollected foreachelementafteranalyzingtheinner
and outer surfaces of 6 different cocoons (n = 6). Signifi-
cantly higher (at p = 0.01) weight percentage of Ca was
observed on the outer surface (12.41 ± 3.05, n = 6) as
compared to the inner surface (0.12 ± 0.05, n = 6). Simi-
larly O was significantly higher (at p = 0.001) on the outer
surface (42.88 ± 4.06, n = 6) as compared to the inner
surface (17.84 ± 2.33, n = 6). On the contrary, N was found
to be significantly low (at p = 0.001) on the outer surface as
compared to the inner surface (7.15 ± 1.53, n = 6). Ca is
significantly higher on the outer surface which is due to the
presence of calcium oxalate monohydrate crystals on the
outer surface. The significant presence of N on the inner
surface may represent the fibrous silk proteins. The weight
percentages of Na, Cl and Ni were significantly high (at
p = 0.05) on the inner surface whereas Se was present at
significantly higher (at p = 0.05) concentration on the outer
surface. All the other elements did exhibit certain trend but
were not found to be statistically significant. Presence of
some of these elements on cocoon surface was previously
reported in other studies [9, 23]
3.7 Asymmetric Nature of the Cocoon Membrane
Based on the SEM, EDAX, XRD and FTIR analysis, we
concluded that the cocoon membrane is asymmetric. The
asymmetric properties of the cocoon membrane are
attributed to the significantly different distribution of cal-
cium oxalate, nitrogen, sodium, nickel and selenium on the
outer and the inner surfaces of the cocoon membrane. One
of the earlier report, indicated the presence of crystals on
the surface of the cocoon [24]. Thereafter those crystals are
identified as calcium oxalate monohydrate by X-ray dif-
fraction (XRD) studies [15, 25]. Another study further
demonstrated that these crystals are formed in the larval gut
[26]. Although these studies demonstrated the presence of
calcium oxalate crystals on the cocoon surface but we are
reporting for the first time that calcium oxalate is asym-
metrically distributed on the outer and the inner surfaces of
the cocoon membrane. Apart form it, this is the first evi-
dence showing the differential distribution of nitrogen,
sodium, chloride, nickel and selenium on the outer and the
inner surfaces of the cocoon membrane. We believe that
presence of these plethora of elements in the cocoon
membrane is directly correlated with the kind of vegetation
on which the larva is feeding.
3.8 CO2 Flow Across the Native Cocoon Membrane
Based on the observed asymmetric property of the mem-
brane, we hypothesize that it may be responsible in
maintaining an ambient atmosphere inside the cocoon.
Cocoon is a close structure. If excess CO2 gets trapped
inside such a close structure, then this will lead to a green-
house like effect. Such a situation could be detrimental
for the development of the pupa. To ensure an ambient
Fig. 6 Weight percentage
values of the different elements
present on the outer and the
inner surfaces of the cocoon
which were analyzed using
EDAX. Data were collected for
each element after analyzing the
inner and outer surfaces of 6
different cocoons (n = 6)
Page 8 of 11 Biointerphases (2012) 7:45
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9. environment inside the cocoon, it should be equipped with
an efficient mechanism to get rid-off the CO2 generated
inside. To test this hypothesis, we measured the minimum
time taken by CO2 to diffuse out of the cocoon when
CO2 was injected inside the cocoon (Fig. 2a). The mini-
mum mean time for CO2 to diffuse out of the cocoon
was 20.18 ± 4.32 s, n = 11 (mean ± standard error,
n = number of cocoons). When we measured the diffusion
of CO2 inside the cocoon from outside for 10 min, no
appreciable concentration of CO2 was found inside
(n = 11) (Fig. 2b). These two experiments demonstrate
CO2 gating which regulates unidirectional flow of CO2
across the silk cocoon membrane.
3.9 CO2 Flow Across the Cocoon Membrane in Which
Calcium Oxalate Layer from the Outer Surface
is Removed
Calcium oxalate free cocoons were used to study the
CO2 flow across the cocoon membrane. The minimum
mean time for CO2 to diffuse out of the cocoon was
17.83 ± 1.27 s, n = 6 (mean ± standard error, n = num-
ber of cocoons). The minimum mean time for CO2 to
diffuse inside the cocoon from outside CO2 rich environ-
ment was 118.33 ± 43.54 s, n = 6 (mean ± standard
error, n = number of cocoons)
3.10 O2 Flow Across the Cocoon Membrane
To understand the diffusion of O2 across the membrane, we
performed similar experiment under O2 atmosphere. The
experimental set-up to monitor the passage of O2 across the
cocoon membrane is described in Fig. 2c, d. The average
minimum time needed for O2 to diffuse out of the cocoon
was 33.16 ± 9.05 s, n = 6 (mean ± standard error,
n = number of cocoons). The average minimum time
needed for O2 to diffuse inside the cocoon from outside
was 34.50 ± 6.07 s, n = 6 (mean ± standard error,
n = number of cocoons). These indicate that the rate of O2
diffusion across the cocoon membrane remains the same.
3.11 CO2 Gating (Unidirectional Flow of CO2)
and Bidirectional Flow of O2
To the best of our knowledge, this is the first evidence
showing the unidirectional flow of CO2 across the cocoon
membrane. We have found that in native cocoon the CO2
flows from inside to outside the cocoon and the reverse
flow is prevented. We propose that such a CO2 gating helps
in maintaining an ambient gaseous environment inside the
cocoon. We observed a bidirectional flow of O2 across
the cocoon membrane. There is also a recent report on the
bidirectional diffusion of O2 across the cocoon membrane
[19]. Whether the asymmetric structural features of the
cocoon membrane is responsible for the unidirectional flow
of CO2 requires some explanation. In order to establish a
structure–function activity of the asymmetric cocoon
membrane, we devised a strategy to remove the major
component from the outer surface of the cocoon, namely
calcium oxalate monohydrate, which is believed to impart
asymmetry in the structure. The calcium oxalate monohy-
drate free cocoon when subjected to CO2 diffusion exper-
iment shows some interesting results which are tabulated
above. A comparison of this data with the untreated cocoon
show the permeability of CO2 from inside to outside the
cocoon has increased slightly with a mean value of 17 s
compared to the mean value of 20 s in the untreated
cocoon. However, for the reverse passage that is from
outside to inside, the treated cocoon could not withstand a
longer time of 10 min what was observed with the
untreated cocoon and the CO2 could be sensed only after
2 min. Such experiment directly relates the important role
of heterogeneity of cocoon shell with the deposition of
calcium oxalate hydrate crystals. Our results show that
without the presence of calcium oxalate monohydrate, a
delay of CO2 passage from outside to inside could be
directly related to the weaving of silk thread. This is
important in the sense that there are different version of
cocoons where the deposition of calcium oxalate hydrate
type of crystals on the outer surface varies [15, 18].
Therefore it is the calcium oxalate crystals which pre-
dominantly prevents the passage of CO2 from outside to
inside. Yet the weaving pattern of silk in the membrane
also contributes to the gating of CO2. It is true that the
environmental partial pressure of CO2 (0.228 mm of mer-
cury) is much less than what we had used in our experiment
which is significantly much higher in concentration
because to reduce time in its passage for ready identifica-
tion [27]. Therefore the flow of CO2 from outside to the
inside of the cocoon could be negligible with the real
concentration of CO2 available in the environment (atmo-
sphere contains 0.03 % of CO2). The dependency of CO2
flow with the varied concentration of CO2 versus time is
under study based on untreated and treated cocoon. How-
ever qualitatively it is clear to report that the intrinsic
weaving pattern of silk does contribute to the gating of CO2
which is supplemented by the deposition of calcium oxa-
late crystals on the outer surface of the cocoon.
3.12 Possible Role of Calcium Oxalate Monohydrate
Layer in CO2 Gating
The role of calcium oxalate monohydrate to prevent the
flow of CO2 from outside to inside needed a chemical
explanation. It is known that calcium oxalate hydrate pre-
fers a humid environment and under humid condition the
Biointerphases (2012) 7:45 Page 9 of 11
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10. CO2 from the atmosphere gets hydrated to form carbonic
acid. The carbonic acid can be dissociated to bicarbonate
and proton and the outer surface of the cocoons predomi-
nantly with calcium oxalate monohydrate may influence
this dissociation forming some hydrogen bonded network.
The strong electronegative oxygen atoms of oxalate groups
readily assist in creating such hydrogen bonded network.
The external CO2 thus lost its small entity and may be
trapped by such hydrogen bonding network. The outcome
of such phenomenon is the prevention of the free passage
of CO2 from outside to the inside of the surface of the
cocoon. In fact the role of the calcium oxalate hydrate thus
can be thought as the material which continuously blocked
CO2 on the surface. Any leakage of CO2 from the outer
surface faces the second barrier by the weaving pattern of
silk which behaves as the final filter inside. This explana-
tion is based on the existing knowledge of chemistry of
hydrogen bonding of CO2. Our present work clearly proves
the gating of CO2 across the cocoons. In future, if we could
mimic such a membrane then it could be used as a gas filter
and for developing green energy saving housing material.
3.13 Thermoregulation
On the aspect of thermoregulation inside the cocoon, we
performed experiments simulating the weather conditions
that a cocoon can experience by varying the temperature
ranging from 5 to 50 °C with relative humidity (RH)
varying from 30 to 80 %. After placing a cocoon, in an
incubator maintaining such temperature and humidity
conditions and allowing an hour to attain equilibrium, the
inside temperature of the cocoon is noted. On exposure of
5 °C temperature, the inside temperature of the cocoon
became stable at 25.01 ± 0.18 °C, n = 8 (mean ± stan-
dard error, n = number of cocoons) after 1 h. Similarly
with an outside temp of 50 °C, the inside temp is stabi-
lized at 34.71 ± 0.81 °C, n = 8 (mean ± standard error,
n = number of cocoons) after an hour. Thus cocoon
membrane has an intrinsic temperature controlling system
to offer a physiological temperature regime inside the
cocoon. A thermoregulatory mechanism in hornet silk,
hornet’s nest, and in the cocoon of Bombyx mori was
proposed earlier [9, 20, 21, 28]. Our results are supporting
the earlier finding.
4 Conclusions
In this paper, we show the architectural marvel displayed
by the silkworm during its metamorphosis. The cocoon it
builds from its own secretion is so designed to house it for
weeks to months till it transformed to a full grown adult
moth. During this transformation period from larvae to
pupa the cocoon controls gas flow and thermal regulation
for its survival inside. The knowledge gained by such
architectural sophistication albeit with simple resources
will focus us to go for the development of environment
friendly, energy saving building materials and gas filters.
Acknowledgments The work was supported by IITK start-up Grant
(IITK/BSBE/20100206) of MD. MR is a senior research fellow of
CSIR, India (Fellowship Number: 09/092(0670)/2009-EMR-I) and
this work is part of his doctoral thesis. TK is funded by IIT Kanpur
doctoral fellowship. Authors are thankful to DST unit on Nano-
sciences at IIT Kanpur for providing XRD facility. Authors are
thankful to the two anonymous reviewers who suggestions enor-
mously helped in improving the quality of the work.
Open Access This article is distributed under the terms of the
Creative Commons Attribution License which permits any use, dis-
tribution, and reproduction in any medium, provided the original
author(s) and the source are credited.
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