Evaluation
of certain important biochemical parameters of four tropical earthworms in
response to soil moisture and temperature variations
P. Acharya? and
C.S.K. Mishra?*
?School of Life Sciences, Sambalpur
University, Sambalpur-768 019, India
?Department of Zoology, Odisha University
of Agriculture and Technology, College of Basic Science and Humanities,
Bhubaneswar-751 003, India
*Corresponding Author Email : cskmishra@yahoo.com
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Abstract
Aim:
The aim of this study was to evaluate the variation in certain biochemical
parameters of the earthworms, Drawida willsi (Sp1), Glyphidrilus tuberosus
(Sp2), Lampito mauritii (Sp3) and Perionyx excavates (Sp4) in
response to seasonal soil moisture and temperature alterations.
Methodology: Soil moisture and temperatures were measured by
digital moisture meter and thermometers, respectively. The sampling of
earthworms was done following quadrat method during dry and wet seasons from
three agro-climatic zones (Balasore (Z1), Sambalpur (Z2) and Nayagarh (Z3) of
Odisha, India. Tissue protein, LPX level, catalase, acetylcholinesterase and
lactate dehydrogenase activities were estimated spectrophotometrically.
Results:
Significant variation (P< 0.05) in soil moisture and temperature
were noticed between dry and wet seasons in all the agro-climatic zones. All
the earthworm species indicated lower protein level, acetylcholinesterase
activity, higher lipid peroxidation, LDH and catalase activity in dry season
relative to wet seasons. Soil moisture indicated significant positive
correlation (P< 0.05) with tissue protein of Sp1 (r=0.59), Sp2
(r=0.64), and Sp4 (r=0.55) of Z1, Sp2 (r=0.63) and Sp4 (r=0.67) of Z2 and Sp2
(r=0.58) and Sp3 (r=0.65) of Z3. Soil temperature showed significant negative
correlation (P< 0.05) with tissue protein of Sp3 (r= -0.51) of Z1,
Sp2 (r= -0.56) and Sp4 (r= -0.69) of Z2 and Sp1(r= -0.54) of Z 3. ????
Interpretation: Enhanced physiological stress level
caused due to moisture deprivation could influence synthesis and storage of
protein with enzyme activities.
Key words: Physiological
stress, Soil biota, Tropical earthworms
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