A preliminary study was conducted to determine any modifications to basic soil properties following over-abundance of Bambusa bambos, a native bamboo species, that rapidly expanding its population in Intermediate and Dry Zone forests in Sri Lanka. Soil samples taken from representative sites of bamboo-dominated (BAM) and non-bamboo (NBM) forest patches were analyzed for pH, total nitrogen (N), phosphorus (P), soil moisture and microbial biomass carbon (MBC). A growth assay was carried out with Ricinus communis seedlings in BAM and NBM soils (sterilized/unsterilized) in a glasshouse. The soil analysis revealed significantly higher N, P and moisture in BAM soils than in NBM. BAM soils were clayey in nature compared to silty soils in NBM. Ricinus communis grown in BAM soils performed better throughout the experimental period, perhaps due to higher soil nutrients. Ricinus communis grow better in unsterilized soils irrespective of bamboo, indicating a facilitative role of soil microbes on the growth of plants. The preliminary results suggest that either B. bambos spread has the potential to increase the soil fertility status or else B. bambos expands its population preferably on nutrient-rich clayey soils. Therefore, further studies are needed in order to confirm the impacts of B. bambos on edaphic properties which may eventually influence the growth of co-occurring native species.
Plants have the potential to modify soil biological properties through root exudates and litter inputs. Bambusa bambos (L) Voss., a native bamboo, has been expanding its range in Intermediate and dry zone forests in Sri Lanka. With synchronised flowering and death cycles, bamboos have shown the potential to modify forest dynamics. No study has been attempted so far to evaluate its impacts on biological properties of forest soils. The current study assessed the impacts of population expansion of B. bambos on arbuscular mycorrhizal fungi (AMF) by conducting a comparative study with the help of bamboo-dominated (BD) and non-bamboo (NB) forest patches in the Intermediate Zone, Sri Lanka. The study sites are located in Moragahakanda in the Central Province of Sri Lanka. Two sites (located 4 km apart from each other) were selected; one dominated by bamboo (BD) and the other with no bamboo (NB). Eight composite soil samples (from a depth of 0-20 cm) were analysed for soil moisture content (%) and microbial biomass Carbon (MBC %). Wet sieving and decanting method was used to quantify the AMF spores. Different morphotypes were identified using spore wall characteristics. The results revealed significantly higher soil moisture in BD than in NB while MBC% showed no significant difference. A relatively higher total spore count (2,923) was reported in BD compared to NB (2,776). BD forests also demonstrated significantly higher mean spore abundance (≈ 500/100g soil) compared to that in NB forests (≈100/100g soil), with higher relative contribution from largest spores (125 µm). The AMF richness was relatively low in BD forest (15) than in NB (18), with 14 morphotypes present in both forest types. Shannon-Wiener index and evenness were relatively higher in NB (2.38 and 0.3) in comparison to BD (2.24 and 0.28). B. bambos has shown the potential to increase the AMF abundance with no impact on its richness and composition. Higher AMF abundance may possibly due to favourable micro-habitat conditions at BD compared to NB. Identification of such changes is crucial to introduce measures for conservation and restoration of these sensitive forests.
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