Impact of termite activity on soil environment: A perspective from their soluble chemical components

Semhi, Khadija; Chaudhuri, S.; Clauer, Norbert; Boeglin, Jean-Loup

doi:10.1007/bf03326039

Cited by 29 publications

(20 citation statements)

References 26 publications

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“…The termitarium is highly enriched with humic acids, which serve as terminal electron (e -) acceptors for respiration that supports microbial growth (Lovley et al 1996). Termites are common as "ecosystem engineers" that produce significant physical and chemical modifications to tropical and sub-tropical soils (Semhi et al 2008). They generally go through a sequence of actions, including fetching, and carrying of cementing mineral particles, as well as increase organic matter in the soils used for the construction of their nests, and modify the clay mineral composition of these soil materials (Lopez-Hernandez et al 2006; Roose Amsaleg et al 2004).…”

Section: Introductionmentioning

confidence: 99%

Termitarium-inhabitingBacillus endophyticusTSH42 andBacillus cereusTSH77 colonizingCurcuma longaL.: isolation, characterization, and evaluation of their biocontrol and plant-growth-promoting activities

et al. 2016

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Bacillus strains were isolated from termitarium soil and screened for their antifungal activity through the production of diffusible and volatile metabolites. Further, the bacterial strains that showed antifungal activity were evaluated for their biocontrol potential on the basis of their plant-growth-promoting attributes. Termitarium-inhabiting Bacillus strains TSH42 and TSH77 significantly reduced the growth of pathogenic fungus Fusarium solani, controlled the symptoms of rhizome rot in turmeric (Curcuma longa L.), and demonstrated various plant-growth-promoting traits in different in vitro assays. On the basis of morphological, physiological, biochemical, and 16S rDNA characteristics, isolates TSH42 and TSH77 were identified as Bacillus endophyticus (KT379993) and Bacillus cereus (KT379994), respectively. Through liquid chromatography - mass spectrometry analysis, acidified cell-free culture filtrate (CFCF) of B. cereus TSH77 was shown to contain surfactin and fengycin, while CFCF of B. endophyticus TSH42 contained iturin in addition to surfactin and fengycin. Treatment of the turmeric (C. longa L.) plants with TSH42 and TSH77 significantly reduced the percentage incidence of rhizome rot disease caused by F. solani. The same treatment also increased the fresh rhizome biomass and plant growth in greenhouse conditions.

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Section: Introductionmentioning

confidence: 99%

Termitarium-inhabitingBacillus endophyticusTSH42 andBacillus cereusTSH77 colonizingCurcuma longaL.: isolation, characterization, and evaluation of their biocontrol and plant-growth-promoting activities

et al. 2016

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“…Termite activity increases mound content of most major, and some trace elements needed for crop production (Table 2) (Semhi et al, 2008). Ca and Mg are released by termite activity and dissolved by water or HCl.…”

Section: Chemical Mechanismsmentioning

confidence: 99%

Termites Increase Soil Productivity in Semi-Arid and Arid Tropics

Welch

2014

Natural Sciences Education

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Decreased fertility of sub‐Saharan African cropland is of major concern to farmers and malnourished populations in this region. Lack of nutrients in these soils has left land degraded and unable to produce substantial agricultural yield to feed the region's people. Conservation of termite mounds native to arid and semi‐arid locals in Africa improves soil fertility. Termites and the homes they build aid in improving soils’ physical structure, organic matter content, nutrient availability, and biological activity, amongst other properties, and can be used to ameliorate degraded cropland, as a soil amendment in place of traditional fertilizer. Utilization of this natural modifier could lead to increased arable land, heightened crop yields, and reduction in sub‐Saharan African human malnutrition.

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“…Termites are social insects that build nests in soil or wood (Eggleton et al 2002). The mounds are features built from subsoil taken from a depth as low as 3 metres below the earth surface; thus, the composition of mound soil is closely related to the nature of adjacent subsoil (Semhi et al 2008). Recently, the use of termite mound (TM) to remove Pb(II) (Abdus-Salam and Itiola 2012) and Cr(VI) (Araujo et al 2013), and defluoridation of groundwater (Fufa et al 2013) were reported.…”

Section: Introductionmentioning

confidence: 99%

Kinetics, thermodynamics and competitive adsorption of lead and zinc ions onto termite mound

Abdus-Salam

Bello

2015

Int. J. Environ. Sci. Technol.

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The elemental composition of termite mound was determined by XRF which revealed K, Ti and Mn as minor constituents while Ca and Fe as major constituents. The DG value for Zn(II) is positive in both single and binary systems, while that for Pb(II) was positive between 313-333 and 323-333 K for single and binary systems, respectively. The data show that the use of neglected termite mound for Pb(II) and Zn(II) removal from aqueous solutions is economically significant in wastewater treatment.

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Impact of termite activity on soil environment: A perspective from their soluble chemical components

Cited by 29 publications

References 26 publications

Termitarium-inhabitingBacillus endophyticusTSH42 andBacillus cereusTSH77 colonizingCurcuma longaL.: isolation, characterization, and evaluation of their biocontrol and plant-growth-promoting activities

Termitarium-inhabitingBacillus endophyticusTSH42 andBacillus cereusTSH77 colonizingCurcuma longaL.: isolation, characterization, and evaluation of their biocontrol and plant-growth-promoting activities

Termites Increase Soil Productivity in Semi-Arid and Arid Tropics

Kinetics, thermodynamics and competitive adsorption of lead and zinc ions onto termite mound

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