Earthworm Gut May Offer New Ways of Efficient Recycling Of Organic Waste

Earthworm Gut May Offer New Ways of Efficient Recycling Of Organic Waste

  • Research Stash
  • News
  • 4.8K

Earthworms are considered best friends of farmers, acting as engineers in soils. They are helpful in the decomposition of waste, producing biofertilizers.

Indian scientists have investigated the gut of earthworms to get an insight into why they are so efficient in helping decomposition. They have found that the gut of earthworms provides an ideal environment for nurturing a variety of cellulose-degrading bacteria because of which they are able to convert organic waste from plant sources into fertilizer or compost.

A team of scientists led by Dr. Narayan C. Talukdar at the Institute of Advanced Study in Science and Technology in Guwahati studied two types of earthworms—those which are found on the surface of the soil (Perionyx excavatus or composting earthworms) and those found under the soil (Glyphidrilus spelaeotes or semi-aquatic freshwater earthworms). Bacteria drawn from the gut of earthworms were cultured and separated on the basis of their rate of growth and general structure.

According to results published in the journal Current Science, the use of a technique called ‘16S rRNA gene-based taxonomic analyses revealed the distinct composition of cellulose-degrading bacteria specific to each type of earthworm.

The rate at which cellulose was broken down by an enzyme (cellulase) found in these gut bacteria was much higher than that found in Cellulomonas cellulans, a bacteria whose distinguishing feature is breaking down of cellulose and was used as a reference for the study.

This was clear from higher amounts of carbon generated from earthworm’s vis-à-vis Cellulomonas cellulans after 20 days of decomposition of rice straw in its natural environment.

Further analysis also revealed that the growth rate of cellulose-degrading bacteria in semi-aquatic freshwater earthworms was much faster than composting earthworms thus, making them more efficient decomposers of rice straw.

The earthworm gut hosts many microorganisms. Earthworms eat plants, which contain cellulose (a complex sugar) as an important part of a plant cell wall. Cellulose-degrading bacteria in the gut of earthworms break it down into carbon, hydrogen, and oxygen which make up most of the soil organic matter.

“Knowledge on occurrence and screening of efficient cellulose-degrading bacteria within the gut wall of earthworms may help in the efficient cycling of organic residues either in field conditions or in the compost-making process,” pointed out Dr. Talukdar.

In rice-growing tropical and sub-tropical regions, cellulose-containing rice straw remains in the field after harvesting and needs to be decomposed quickly for efficient release of nutrients. In the summer to winter rice-cropping system prevalent in North East India, summer rice straw needs to be recycled 20 to 30 days prior to transplanting of winter rice. It has, however, been reported in previous studies that the freshwater earthworm in submerged rice fields can decompose rice straw under the favorable temperatures of July–August but, the cycling of winter rice straw in field condition is slowed down due to low temperature in winter months.

The other members of the research team were Kishore K. Dey and Fenella M. W. Nongkhlaw (Central Agricultural University, Umiam, and Meghalaya). This research was funded by the Indian Council of Agricultural Research, New Delhi. (India Science Wire)

By Monika Kundu Srivastava

Journal Article

Isolation, characterization and practical significance of cellulose degrading bacteria from the gut wall of two ecologically distinct earthworms.

For the latest Science, Tech news and conversations, follow Research Stash on TwitterFacebook, and subscribe to our YouTube channel 

Rate

According to results published in the journal Current Science, the use of a technique called ‘16S rRNA gene-based taxonomic analyses revealed the distinct composition of cellulose-degrading bacteria specific to each type of earthworm.

The rate at which cellulose was broken down by an enzyme (cellulase) found in these gut bacteria was much higher than that found in Cellulomonas cellulans, a bacteria whose distinguishing feature is breaking down of cellulose and was used as a reference for the study.

This was clear from higher amounts of carbon generated from earthworm’s vis-à-vis Cellulomonas cellulans after 20 days of decomposition of rice straw in its natural environment.

Further analysis also revealed that the growth rate of cellulose-degrading bacteria in semi-aquatic freshwater earthworms was much faster than composting earthworms thus, making them more efficient decomposers of rice straw.

The earthworm gut hosts many microorganisms. Earthworms eat plants, which contain cellulose (a complex sugar) as an important part of a plant cell wall. Cellulose-degrading bacteria in the gut of earthworms break it down into carbon, hydrogen, and oxygen which make up most of the soil organic matter.

“Knowledge on occurrence and screening of efficient cellulose-degrading bacteria within the gut wall of earthworms may help in the efficient cycling of organic residues either in field conditions or in the compost-making process,” pointed out Dr. Talukdar.

In rice-growing tropical and sub-tropical regions, cellulose-containing rice straw remains in the field after harvesting and needs to be decomposed quickly for efficient release of nutrients. In the summer to winter rice-cropping system prevalent in North East India, summer rice straw needs to be recycled 20 to 30 days prior to transplanting of winter rice. It has, however, been reported in previous studies that the freshwater earthworm in submerged rice fields can decompose rice straw under the favorable temperatures of July–August but, the cycling of winter rice straw in field condition is slowed down due to low temperature in winter months.

The other members of the research team were Kishore K. Dey and Fenella M. W. Nongkhlaw (Central Agricultural University, Umiam, and Meghalaya). This research was funded by the Indian Council of Agricultural Research, New Delhi. (India Science Wire)

By Monika Kundu Srivastava

Journal Article

Isolation, characterization and practical significance of cellulose degrading bacteria from the gut wall of two ecologically distinct earthworms.

For the latest Science, Tech news and conversations, follow Research Stash on TwitterFacebook, and subscribe to our YouTube channel 

" }
This Amino Acid Can Help Mung Bean Plants Withstand Heat Stress

This Amino Acid Can Help Mung Bean Plants Withstand Heat Stress

Researchers have found that the reproductive functions of mung bean plants were reduced upon heat stress and that this damage could be reversed by application of GABA, a naturally occurring amino acid, to roots and leaves

  • News
  • 1.7K
Read more
New Super-Computer to Help Research and Start-Ups

New Super-Computer to Help Research and Start-Ups

Advanced 650 teraflops supercomputing facility was inaugurated at National Agri-Food Biotechnology Institute, which will act as a facilitator for start-ups working in areas like telemedicine, digital health, mHealth with big data, AI, Blockchain, and other technologies.

  • News
  • 1.1K
Read more
EEG To Minimize Human Error

EEG To Minimize Human Error

Researchers at the Indian Institute of Technology Madras have shown that EEG can also be used to measure brainwaves in industrial workers, to assess their mental sharpness, especially during times of crisis.

  • News
  • 1.7K
Read more

Internet is huge! Help us find great content

Newsletter

Never miss a thing! Sign up for our newsletter to stay updated.

About

Research Stash is a curated collection of tools and News for S.T.E.M researchers

Have any questions or want to partner with us? Reach us at hello@researchstash.com

Navigation

Submit