Journal of Threatened Taxa | www.threatenedtaxa.org | 26 June 2024 | 16(6): 25446–25452

ISSN 0974-7907 (Online) | ISSN 0974-7893 (Print)

https://doi.org/10.11609/jott.8102.16.6.25446-25452

#8102 | Received 14 July 2022 | Final received 29 May 2024 | Finally accepted 05 June 2024

Earthworm (Oligochaeta) diversity of Kumaun Himalaya with a new record of Drawida japonica (Michaelsen, 1892) (Monaligastridae) from Nainital, Uttarakhand, India

Shikha Bora¹, Deepak Chandra Melkani², Ajay Kumar³, Mansi Arya⁴, Kulbhushan Kumar⁵, Netrapal Sharma ⁶ & Satpal Singh Bisht⁷

^1–6Department of Zoology, D.S.B Campus, Kumaun University, Nainital, Uttarakhand 263002, India.

⁷SSJ University, Mall Road, Almora, Uttarakhand 263601, India.

¹borashikha94@gmail.com (corresponding author), ²deepakmelkanintl@gmail.com, ³ajaykumaar.Is@gmail.com, ⁴mansiarya654@gmail.com, ⁵kkulbhushan289@gmail.com, ⁶np_biotech53@rediffmail.com, ⁷sps.bisht@gmail.com

Editor: Shweta Yadav, Dr. Harisingh Gour Vishwavidyalaya (A Central University), Sagar, India. Date of publication: 26 June 2024 (online & print)

Citation: Bora, S., D.C. Melkani, A. Kumar, M. Arya, K. Kumar, N. Sharma & S.S. Bisht (2024). Earthworm (Oligochaeta) diversity of Kumaun Himalaya with a new record of Drawida japonica (Michaelsen, 1892) (Monaligastridae) from Nainital, Uttarakhand, India. Journal of Threatened Taxa 16(6): 25446-25452. https://doi.org/10.11609/jott.8102.16.6.25446-25452

Copyright: © Bora et al. 2024. Creative Commons Attribution 4.0 International License. JoTT allows unrestricted use, reproduction, and distribution of this article in any medium by providing adequate credit to the author(s) and the source of publication.

Funding: None.

Competing interests: The authors declare no competing interests.

Author details: Shikha Bora completed her Ph.D in earthworm ecology from Department of Zoology, D.S.B Campus Nainital. Deepak Chandra Melkani working as tutor cum demonstrator in Department of Zoology, D.S.B Campus, Nainital. Ajay Kumar completed his Ph.D. in food and nutrition from Department of Zoology, D.S.B Campus Nainital. Mansi Arya pursuing her Ph.D in dairy science in Department of Zoology, D.S.B Campus, Nainital. Kulbhushan Kumarcompleted his Ph.D in wild-life conservation from Department of Zoology, D.S.B Campus, Nainital. Netrapal Sharma working as assistant professor in Department of Zoology, D.S. B Campus, Nainital. Satpal Singh Bisht is honorable vice chancellor at SSJ University, Mall Road, Almora.

Author contributions: S.B, D.C.M, A.K, M.A, K. K, N.S field survey, collection, and writing of manuscript, SSB conceptualized, design, review and edited the manuscript.

Acknowledgements: Authors would like to thank head, Department of Zoology, D.S.B Campus, Nainital for infrastructure support during the present investigation. The author is thankful to Zoological Survey of India Kolkata for the identification of earthworms.

Abstract: The present study was conducted to investigate earthworm diversity in the Kumaun region of Uttarakhand, India. Earthworm sampling was made from 1,409–2,224 m from the foothills of the Kumaun Himalaya to higher altitudes monthly from April 2019 to April 2021, covering the major monsoon season in India. Earthworms were collected from twelve different sites using the hand sorting method and preserved in 10% formalin. We recorded 14 earthworm species representing four families: Megascolecidae (Amynthas corticis, Amynthas morrisi, Amynthas alexandri, Metaphire anomala, Metaphire houlleti, Metaphire birmanica, & Perionyx excavatus); Lumbricidae (Aporrectodea caliginosa trapezoides, Aporrectodea rosea rosea, Eisenia fetida, Octolasion tyrtaeum, & Dendrodrilus rubidus); Moniligastridae (Drawida japonica); and Octochaetidae (Eutyphoeus nainianus). Drawida japonica from the family Moniligastridae is being reported for the first time from the Kumaun Himalaya. Moniligastrids are an important, yet often ignored, earthworm group commonly found in cultivated soils of higher altitudes.

Keywords: Annelida, Clitellata, cultivated soil, deposition, first record, high altitude, Kumaun Region, Lumbricidae, macrofauna, zoological collection number.

INTRODUCTION

Earthworms act on soil structure and function via feeding, digging and excretion, thereby affecting farmland soil nutrients and microbial diversity, and many taxonomists have been drawn towards them McTavish et al. (2021). Indeed, Charles Darwin described earthworms as the most important animal group in the history of the world; Darwin (1881). The first record of earthworm fauna of the western Himalaya was given by Bourne (1889), who described Typhoeus masoni (syn. Eutyphoeus orientalis) from Dehradun (Uttarakhand, India). There are 3,000–7,000 known species of earthworms worldwide (Phillips et al. 2021) but at the same time Misiragloglu et al. (2023) stated that a total of ca. 5,738 species/subspecies (5,406 species and 332 unique subspecies; i.e., not counting the nomino-typical subspecies) belonging to 23 families (including one non-crassiclitellate family: Moniligastridae) are currently recognized worldwide, of which three families (Tritogeniidae and Kazimierzidae from southern Africa and Arecoidae, a new family from Brazil described herein), 35 genera and close to 1,200 new taxa (including subspecies) were described in the 21^st century. Nonetheless, the large number of undescribed species will likely increase this value to well over 8,000 species, broadly divided into three ecological groups based on feeding and burrowing habits: litter-dwelling epigeic species, shallow-burrowing endogeic species, and deep-burrowing anecic species (Lee 1985; Shipitalo & Korucu 2002). In his 1972 seminal book ‘Lombriciens de France’, Marcel Bouché initially described seven earthworm ecological categories (anecic, endogeic, epigeic, epi-anecic, endo-anecic, epi-endogeic, and intermediate) (Bouché 1972).

Five years later, he simplified the explanation of these categories by describing a ternary plot in which the three major categories (anecic, endogeic and epigeic) represent the three poles (Bouché 1977). Drawida japonica Michaelsen, 1892 (Oligochaeta, Moniligastridae) is considered an epigeic species because its preferred habitat is mostly humid litter layers or topsoil ground in particular areas like forests, drainage ditches and ponds or reservoirs. Nevertheless, Gates (1972) thought that this species came originally from the Indian Himalayas and questioned the identification of some earlier records from outside Japan or Korea. In India, 89% of the fauna are native and the rest exotic (Julka & Paliwal 2005; Verma et al. 2010).

Kumaun Himalaya, a west-central section of the Himalaya in northern India, ranges from 28° 44’ & 31° 28’ N and 77° 35’ & 81° 01’ East. Information on the earthworm community of the Kumaun region is minimal. Earthworms are required to survive a good supply of food, plenty of moisture, enough dissolved oxygen, shelter from sunlight, a balanced pH level, an environment free from toxic substances, and a suitable temperature (Reynolds et al. 2021). The present study is based on the diversity of earthworms located at different altitudes of the Kumaun Himalaya (1,409–2,224 m). The study reported one lumbricid species, Drawida japonica Michaelsen 1892 for the first time from Kumaun Himalaya (Image 1).

MATERIALS & METHODS

Earthworms were collected from Dhari tehsil (29.3397⁰N, 79.5877⁰E), Nainital District of Kumaun Himalaya region, by the hand sorting method from two cultivated land and orchards with two soil depths of 0–10 and 10–20 cm. The earthworms were sampled from twelve different sites for two years (April 2019–April 2021), covering the major monsoon period in India. The sampled worms were washed, anesthetized in 70% ethanol, preserved in 10% formalin and brought to the laboratory for further investigations.

RESULTS

The collected earthworms were identified to species level by the Zoological Survey of India (ZSI), Kolkata and a total of 14 earthworm species belonging to four different families: Megascolecidae, Lumbricidae, Moniligastridae, and Octochaetidae were recorded, with a new record of Drawida japonica from the cultivated land and orchards of Kumaun Himalayas. All the earthworm species have been deposited to ZSI Kolkata and provided with National Zoological Collection number.

Megascolecidae

Amynthas corticis (Kinberg, 1867) [syn. Amynthas diffringens (Baird, 1969)]

Origin: Endemic.

Collection no.(s): M4, P1, P4, P6, P7, N1, N5, N7, N8 PP1, PP3, PP7, SN2, MT3, MT4, C1

Date(s) of collection: 24.vi.2020, 12.vii.2019,31.vii.2020, 09.ix.2019, 30.ix.2020, 15.x.2019, 29.x.2020, 27.xi.2019, 30.xii.2020, 31.i.2020

Collection site: Cultivated land, orchards

Garhwal: Chamoli District – Bhimtoli, Joshimath, Mandal, Pandukeshwar, Mana, Govindghat; Pauri District – Lansdowne, Kanda, Pauri, Malan Sanctuary, Chamdhar, Gumkhal; Rudra Prayag District – Phata, Augastmani, Narainkoti, Trijuginarain; Tehri District – Kirtinagar, Kaddukhal, Pokhal; Uttarkashi District – Uttarkaskhi, Maneri, Rautri Sera, Jashyra, Badyar Gad, Mori Dunda.

Kumaun: Almora District – Kausani, Chaukni, Sheraghat, Lakhidiyar, Soni; Bageshwar District – Begeshwar, Garur, Jogeshwar, Baijnath; Champawat District – Lohaghat, Bed Bagad; Dehra Dun District – Amlawa river bed, Kalsi, Rajpur, Ramgash; Nainital District – Bhimtal, Nainital, Sattal, Ramgarh, Mohan, Malani; Pithoragarh District – Didihat, Thal, Jharia Gad,Pithorgarh,Berinag, Dhamrikhet, Arca.

Amynthas morrisi (Beddard, 1892)

Origin: Endemic.

Collection no.(s): O1,O2, O3, O8, O11

Date(s) of collection: 27.viii.2019, 31.viii.2020

Collection site: Cultivated land, orchards

Garhwal: Dehradun District – Raipur, Dehradun.

Kumaun: Nainital District – Kungaon, Bhowali, Patwadangar, Shantipuri.

Amynthas alexandri (Beddard, 1900)

Origin: Endemic.

Collection no.(s): O6, O7, O11, O12,

Date(s) of collection: 27.viii.2019, 31.viii.2020

Collection site: Cultivated land, orchards

Garhwal: Dehradun District – Gujrara, Sahastradhara, Nehrugram; Pauri District – Khankra.

Kumaun: Nainital District – Ranibagh.

Metaphire anomala (Michaelsen, 1907)

Origin: Endemic.

Collection no.(s): O2, O4, O5, O6, O9, O10, N4

Date(s) of collection: 27.viii.2019, 31.viii.2020, 30.ix.2020

Collection site: Cultivated land, orchards

Garhwal: Chamoli District – Nandprayag, Thirpali; Dehardun District – Sahastradhara, Dehradun, Lachhiwala, Ghattikhola, Gujrara, Mussoorie Forest range; Pauri District – Dhikala-Kanda Road; Tehri District – Deoprayag.

Kumaun: Nainital District – Naukuchia Tal.

Metaphire houlleti (Perrier, 1872)

Origin: Endemic.

Collection no.(s): O1, O4, O7, O11

Date(s) of collection: 27.vii.2019, 31.viii.2020, 30.ix.2020

Collection site: Cultivated land, orchards

Garhwal: Chamoli District – Thirpali; Dehradun District – Dehradun; Dehradun, Sahiya, Nehrugram, Ghattikhola, Lalpul, Timli Forest, Shastradhara, Rishikesh, Phanduwala, Gujrara; Rudraprayag District – Rudraprayag; Tehri District – Kirtinagar, Aglar River, Gulabrai, Chamba.

Kumaun: Almora District – Soni, Chitai; Champawat District – Champawat; Nainital District – Gagasat Sultan, Ranibagh, Bhowali, Dhangarhi, Naukuchia Tal, Sat Tal, Kaladhungi, Bhim Tal; Pithoragarh District – Thal, Jharia Gad, Oriti, Ravti Nalla, Kolika.

Metaphire birmanica (Rosa, 1888)

Origin: Endemic.

Collection no.(s): O1

Date(s) of collection: 27.viii.2019

Collection site: Cultivated land, orchards

Garhwal: Chamoli District – Pipalkoti, Kuher, Nandprayag; Dehradun District – Mussoorie, Nehrugram, Ghattikhola, Kandholi Forest; Pauri District – Dhikala-Kanda Road, Dhikala Sarapduli Road; Rudraprayag District– Rudraprayag.

Kumaun: Bageshwar District – Garur, Kapkote; Nainital District – Nainital, Deochauri, Naukuchia Tal.

Perionyx excavates (Perrier, 1872)

Origin: Exotic.

Collection no.(s): B1

Date(s) of collection: 03.iii.2020

Collection site: Cultivated land, orchards

Garhwal: Dehra Dun district – Phanduwala, Dehra Dun, Satyanarain, Kansro Forest, Motichur Rao; Chamoli District – Joshimath; Pauri dist.- Khankara, Chamdhar, Kanda Nala; Uttarkashi dist.- Barnigad Kuwa.

Kumaun: Uttaranchal: Almora, Sheraghat; Phorti, Sandev; Naini Tal District - Bhowali, Naini Tal, Mohan.

Lumbricidae

Aporrectodea trapezoids (Dugès, 1828)

Origin: Exotic.

Collection no.(s): M4, C2, C3

Date(s) of collection: 24.vi.2020,19.i.2021

Collection site: Cultivated land, orchards

Garhwal: Chamoli District – Joshimath, Mana, Joshimath-TapovanRoad, GarurGanga, Helong; Dehradun District –Chakarata, Mussoorie, Sahiya; Tehri District – Patli Devika; Uttarkashi District – Bhairo, Ghati, Lanka.

Kumaun: Almora District – Ranikhet, Soni, Punwa Nalla; Champawat District – Champawat; Nainital District – Nainital, Ramgarh; Pithoragarh District – Deval Thal.

Aporrectodea rosea rosea (Savigny, 1826)

Origin: Exotic.

Collection no.(s): M4, C2, C3

Date(s) of collection: 24.vi.2020, 19.i.2021

Collection site: Cultivated land, orchards

Garhwal:Uttaranchal: Chamoli District – Valley of Flowers, Joshimath; Dehra Dun District - Mussoorie; Pauri District - Lansdowne; Tehri District – Kaddukhal.

Kumaun: Nainital District – Nainital, Ramgarh.

Eisenia fetida

Origin: Exotic.

Collection no.(s): D3, D5, P5, PP4, SN4, SN5, MT2, C2, CT1

Date(s) of collection: 11.iv.2020, 12.vii.2019, 15.x.2019, 30.xi.2020, 30.xii.2019, 19.i.2021, 20.ii.2020

Collection site: Cultivated land, orchards

Garhwal: Chamoli District – Govindghat, Joshimath, Padukeshwar; Dehradun District – Mussoorie; Tehri District – Kaddukhal.

Kumaun: Nainital District – Ghorakhal, Kathgodam, Khurpata.

Octolasion tyrtaeum (Savigny, 1826)

Origin: Exotic.

Collection no.(s): D2, D3, D4, S1, S2, M1, M2, M3, N2, N4, N6, N7, PP2, PP5, PP6, SN1, SN4, SN6, MT1, MT4, CT2, CT4,

Date(s) of collection: 09.iv.2019, 11.iv.2020, 25.v.2020, 18.vi.2019, 24.vi.2020, 09.ix.2019, 30.ix.2020, 15.x.2019, 29.x.2020,27.xi.2019, 30.xi.2020, 30.xii.2019, 30.xii.2020, 20.ii.2020, 28.ii.2021

Collection site: Cultivated land, orchards

Garhwal: Chamoli District – Joshimath, Padukeshwar; Dehradun District – Mussoorie, Bahmanpur, Shahastrdhara, Chakrata; Tehri District – Dhanaulti, Kaddukhal, Patli, Devika.

Kumaun: Almora District – Jhoola Devi; Nainital District – Bhim Tal, Ramgarh, Nainital.

Dendrodrilus rubidus (Savigny, 1826)

Origin: Exotic.

Collection no.(s): N3

Date(s) of collection: 09.ix.2019

Collection site: Cultivated land, orchards

Garhwal: Dehra Dun District – Chakrata, Musoorie; Rudraprayag District - Phata, Trijuginaraian; Tehri District - Dhanaulti; Uttarkashi District – Harsil, Bhairon Ghati Lanka, Uttarkashi

Kumaun: Almora District – Almora, Khati; Chamoli District – Kedarnath, Tungnath, Vasu Dhara, Chopta, Hemkund, Valley of Flowers, Mana, Joshimath, Bedni; Naini Tal District – Gairal, Ramgarh, Nainital.

Moniligastridae

Drawida japonica (Michaelsen, 1892)

Origin: Exotic.

Collection no.(s): P2, P3, P6, P7, SN5, CT3, CT5

Date(s) of collection: 12.vii.2019, 31.vii.2020, 30.xi.21, 20.ii.20, 28.ii.21

Collection site: Cultivated land, orchards

Garhwal: Uttaranchal: Dehra Dun District – Chakrata, Mussoorie.

Kumaun: First record from Dhari, Nainital.

Octochaetidae

Eutyphoeus nainianus (Michaelsen, 1907)

Origin: Endemic

Collection no.(s): D1, D4

Date(s) of collection: 09.iv.2019

Collection site: Cultivated land, orchards

Garhwal: Chamoli District – Talwari.

Kumaun: Naini Tal District – Naini Tal; Pithoragarh District – Pabta.

DISCUSSION

Fourteen species recorded from the study area, seven were identified belonging to the family Megascolecidae, five from Lumbricidae, one from Moniligastridae, and one from Octochaetidae, respectively. Megascolecidae was dominant in all habitats of the Kumaun Himalaya, and the most widely distributed species was Octolasion tyrtaeum and Eisenia fetida. Drawida japonica belongs to family Moniligastridae has been reported for the first time from the Kumaun region, and for a second time from Uttarakhand. All the other species were reported previously by various authors including: Mubeen & Hatti (2018); Rajwar et al. (Rajwar et al. 2018, 2022); Bora et al. (2021a,b); Saikia et al. (2021); Ahmad et al. (2022); Khan (2022). Drawida japonica was reported from high-altitude cultivated land and orchards, i.e., 1400 m; therefore, it is assumed that it could be present in other parts of the Himalayan mountains with similar geo-climatic conditions and it is possible that this species might also be available in other parts of the Himalaya besides the studied region due to similarity in biomes.

Table 1. The detailed distribution of the habitats and the collection information of collected earthworms are given below.

Family

Species

Ecological/ Feeding Category

Ecotype of study sites

Lumbricidae

Aporrectodea caliginosa trapezoids (Dugés, 1828)

Endogeic

Aporrectodea

rosea rosea (Savigny, 1826)

Endogeic

Eisenia fetida

(Savigny, 1826)

Epigeic

Octolasion tyrtaeum

(Savigny, 1826)

Endogeic

Dendrodrilus

rubidus

(Savigny, 1826)

Epigeic

Megascolecidae

Amynthas alexandri

Beddard, 1900

Endogeic

Amynthas

corticis

(Kinberg,1867)

Epi-endogeic

Amynthas

morrisi

(Beddard, 1892)

Epi-endogeic

Metaphire anomala

(Michaelsen, 1907)

Anecic

Metaphire birmanica

(Rosa, 1888)

Endogeic

Metaphire houlleti

(Perrier, 1872)

Epi-endogeic

Perionyx

excavates

Perrier, 1872

Epigeic

Mongiligastridae

Drawida

japonica

Michaelsen, 1892

Endogeic

Octochaetidae

Eutyphoeus nainianus (Michaelsen, 1907)

Epigeic

Table. 2. Earthworm diversity along the altitudes of Kumaun Himalaya.

Date of collection	Location	Altitude (m)	Latitude	Longitude	Collection Number	Registration Number
09.iv.2019	Dhanachuli	2126	29. 23747	79.39480	D1, D2	ZSIHQ-AN6533/1
25.v.2019	Sasbani	1936	29.2556	79.4006	-
18.vi.2019	Managhair	2224	29.23797	79.46836	M1	ZSIHQ-AN6532/1
12.vii.2019	Padampuri	1599	29.23415	79.37029	P1–P5	ZSIHQ-AN6501/1, ZSIHQ-AN6505/1, ZSIHQ-AN6527/1, ZSIHQ-AN6565/1, ZSIHQ-AN6566/1, ZSIHQ-AN6579/1,
27.viii.2019	Okalkanda	1663	29.19428	79.44009	O1–O8	ZSIHQ-AN6583/1, ZSIHQ-AN6584/1, ZSIHQ-AN6585/1, ZSIHQ-AN6588/1, ZSIHQ-AN6589/1, ZSIHQ-AN6580/1, ZSIHQ-AN6569/1, ZSIHQ-AN6570/1, ZSIHQ-AN6556/1, ZSIHQ-AN6557/1, ZSIHQ-AN6514/1, ZSIHQ-AN6572/1, ZSIHQ-AN6573/1
09.ix.2019	Nadgal	1673	29.24741	79.43276	N1–N3	ZSIHQ-AN6528/1, ZSIHQ-AN6509/1, ZSIHQ-AN6520/1
15.x.2019	Pahadpani	2106	29.25656	79.42622	PP1–PP4	ZSIHQ-AN6508/1, ZSIHQ-AN6510/1, ZSIHQ-AN6524/1, ZSIHQ-AN6531/1
27.xi.2019	Sarna	1675	29.22930	79.37907	SN1–SN3	ZSIHQ-AN6542/1, ZSIHQ-AN6530/1, ZSIHQ-AN6536/1,
30.xii.2019	Matiyal	1649	29.22706	79.36772	MT1, MT2	ZSIHQ-AN6504/1, ZSIHQ-AN6534/1
31.i.2020	Churigarh	1545	29.20663	79.39921	-
20.ii.2020	Chaukhuta	1737	29.24628	79.38005	CT1–CT3	ZSIHQ-AN6503/1, ZSIHQ-AN6525/1, ZSIHQ-AN6517/1
03.iii.2020	Babiyar	1499	29.17613	79.41457	B1	ZSIHQ-AN6516/1
11.iv.2020	Dhanachuli	2126	29.23747	79.39480	D3–D5	ZSIHQ-AN6571/1, ZSIHQ-AN6507/1, ZSIHQ-AN6587/1, ZSIHQ-AN6586/1
25.v.2020	Sasbani	1936	29.2556	79.4006	S1, S2	ZSIHQ-AN6560/1, ZSIHQ-AN6529/1
24.vi.2020	Managhair	2224	29.23797	79.46836	M2, M3, M4	ZSIHQ-AN6502/1, ZSIHQ-AN6561/1, ZSIHQ-AN6562/1, ZSIHQ-AN6515/1
31.vii.2020	Padampuri	1599	29.23415	79.37029	P6, P7	ZSIHQ-AN6558/1, ZSIHQ-AN6559/1, ZSIHQ-AN6581/1, ZSIHQ-AN6582/1
31.viii.2020	Okhalkanda	1663	29.19428	79.44009	O9–O12	ZSIHQ-AN6538/1, ZSIHQ-AN6526/1, ZSIHQ-AN6522/1, ZSIHQ-AN6539/1, ZSIHQ-AN6540/1, ZSIHQ-AN6541/1, ZSIHQ-AN6572/1, ZSIHQ-AN6573/1
30.ix.2020	Nadgal	1673	29.24741	79.13276	N4–N8	ZSIHQ-AN6567/1, ZSIHQ-AN6568/1, ZSIHQ-AN6548/1, ZSIHQ-AN6549/1, ZSIHQ-AN6550/1, ZSIHQ-AN6523/1, ZSIHQ-AN6535/1, ZSIHQ-AN6518/1,
29.x.2020	Pahadpani	2106	29.25656	79.42622	PP5–PP8	ZSIHQ-AN6546/1, ZSIHQ-AN6547/1, ZSIHQ-AN6553/1, ZSIHQ-AN6554/1, ZSIHQ-AN6519/1, ZSIHQ-AN6512/1
30.xi.2020	Sarna	1675	29.22930	79.37907	SN4–SN6	ZSIHQ-AN6506/1, ZSIHQ-AN6552/1, ZSIHQ-AN6551/1, ZSIHQ-AN6563/1, ZSIHQ-AN6564/1
30.xii.2020	Matiyal	1649	29.22706	79.36772	MT3, MT4	ZSIHQ-AN6576/1, ZSIHQ-AN6577/1, ZSIHQ-AN6578/1, ZSIHQ-AN6574/1, ZSIHQ-AN6575/1
19.i.2021	Churigarh	1545	29.20663	79.39921	C1–C3	ZSIHQ-AN6544/1, ZSIHQ-AN6545/1, ZSIHQ-AN6537/1, ZSIHQ-AN6521/1,
28.ii.2021	Chaukhuta	1737	29.24628	79.38005	CT4, CT5	ZSIHQ-AN6545/1, ZSIHQ-AN6513/1,
11.iii.2021	Babiyar	1499	29.17613	79.41457	-

For figure - - click here for full PDF

REFERENCES

Ahmad, S., N. Marimuthu, B. Tripathy, J.M. Julka & K. Chandra (2022). Earthworm community structure and diversity in different land-use systems along an elevation gradient in the Western Himalaya, India. Applied Soil Ecology 176: 104–468.

Bora, S., S.S. Bisht & J.W. Reynolds (2021a). Global diversity of earthworms in various countries and continents: A Short Review. Megadrilogica 26(9):127–154.

Bora, S., D.C. Melkani, K. Kumar & S.S Bisht (2021b). Comparative study of earthworm population and depth distribution in two different land use systems of Kumaun Himalaya, Uttarakhand, India. Indian Journal of Ecology 48(2): 601–606.

Bouché, M. (1972). Lombriciens de France. Ecologie et Systematique. 72–1671.

Bouché, M.B (1977). pp. 122–132. In: Lohm, U. & T. Persson (eds.). Stratégies lombriciennes: Soil organisms as components of ecosystems. Ecology Bulletin, Stockholm. 614 pp.

Bourne, A.G. (1889). On certain earthworms from the western Himalayas and Dehradun. Journal of the Asiatic Society of Bengal 58: 110–117.

Darwin, C.R. (1881). The Formation of Vegetable Mould through the Action of Worms, with Observations on Their Habitats. London, Murray, 326 pp.

Gates, G.E. (1972). Burmese earthworms: An intro-duction to the systematics and biology of megadrile oligochaetes with special reference to Southeast Asia. Transactions of American philosophical society 62: 13–26.

Julka, J.M. & R. Paliwal (2005). Distribution of earthworms in different agro-climatic regions of india, pp 3–13. In: Ramakrishnan, P.S., K.G. Saxena, M.J. Swift, K.S. Rao & R.K. Maikhuri (eds.). Distribution of Earthworms in Different Agro-climatic Regions of India. Soil Biodiversity, Ecological Processes and Landscape, Oxford and ABH Publications Co. Pvt. Ltd., New Delhi.

Khan, M.U., S. Andleeb, M.F. Khan & R.G. Mustafa (2022). Biodiversity and ecological interactions of earthworm species from Poonch division Pakistan. Tropical Ecology 63(1): 122–133.

Lee, K.E. (1985). Earthworms: Their Ecology and Relationships with Soils and Land Use. Academic Press, New York, 411 pp.

McTavish, M.J. & S.D. Murphy (2021). Three-dimensional mapping of earthworm (Lumbricus terrestris) seed transport. Pedobiologia 87-88: 150752. https://doi.org/10.1016/j.pedobi.2021.150752.

Misirlioǧlu, M., J. Reynolds, M. Stojanović, T, Trakić, J. Sekulić, S. James, C. Csuzdi, T. Decaëns, E. Lapied, H. Phillips & E. Cameron (2023). Earthworms (Clitellata, Megadrili) of the world: an updated checklist of valid species and families, with notes on their distribution. Zootaxa 5255(1): 417-438.

Mubeen, H. & S.S. Hatti (2018). Earthworms‘ diversity of Koppal district with the updated information on genus Thatonia of Hyderabad–Karnataka region, Karnataka, India. Journal of Asia-Pacific Biodiversity 11(4): 482–493.

Phillips, H.R.P., E.M. Bach, M.L.C. Bartz, J.M. Bennett, R. Beugnon & M.J.I. Briones (2021). Global data on earthworm abundance, biomass, diversity and corresponding environmental properties. Scientific Data. 8(136): 1–13. https://doi.org/10.1038/s41597-021-00912-z

Rajwar, N., S.S. Bisht, V. Singh & J.W. Reynolds (2018). Earthworm (Oligochaeta) diversity of Kumaum Himalayas, India with first record of woodland blue worm Octolasion cyaneum (Savigny, 1826), (Lumbricidae). Megadrilogica 23: 162–170.

Rajwar, N., V. Singh, S. Bhatt & S.S. Bisht (2022). Earthworm population dynamics in three different land use systems along an altitudinal gradient (208–2609 m asl) in Kumaun Himalayas, India. Tropical Ecology 63(1): 134–140.

Reynolds, J.W., P.M. Catling & B. Kostiuk (2021). Earthworms and Leeches. In: Working Group on General Status of N.W.T. Species. N.W.T. Species 2021–2025 - General Status Ranks of Wild Species in the Northwest Territories. Department of Environment and Natural Resources, Government of the Northwest Territories, Yellowknife, NT, 388 pp.

Saikia, A., P. Chutia & S.R. Sarmah (2021). The diversity and distribution of indigenous earthworm species of Golaghat district of Assam, Northeast India. Asian Journal of Conservation Biology 10(2): 240–248.

Shipitalo, M. & T. Korucu (2002). Structure and earthworms, pp. 2212–2215. In: Lal, R. (ed.). Encyclopedia of Soil Science. CRC Press, Boca Raton, 3068 pp. https://doi.org/10.1081/e-ess3

Stephenson, J. (1930). The Oligochaeta. Clarendon Press, Oxford.

Vaupel, A., B. Hommel & L. Beule (2022). High-resolution melting (H.R.M.) curve analysis as a potential tool for the identification of earthworm species and haplotypes. PeerJ 10: e13661. https://doi.org/10.7717/peerj.13661

Verma, D., S. Bharti & S. Yadav (2010). Biodiversity of earthworm resources in Gangetic plains of Uttar Pradesh India. Tropical Nature History 10: 53–60.