Influence of density and site on fine root characteristics of Pinus tabuliformis plantations in loess area of western Shanxi Province,northern China
[Objective]This paper explores the vertical distribution of fine root biomass(≤2 mm)and fine root morphology of P.tabuliformis plantations under different stand densities,slopes and aspects,so as to provide a basis for vegetation management and ecological construction evaluation in the loess region of western Shanxi Province of northern China.[Method]We investigated the vertical distribution and influencing factors of fine root characteristics,including fine root biomass density,length density,tissue density,specific root length and specific surface area in 0-100 cm soil layer of P.tabuliformis under five stand densities(M1(<2 000 tree/ha),M2(2 000-3 000 tree/ha),M3(3 000-4 000 tree/ha),M4(4 000-5 000 tree/ha),M5(>5 000 tree/ha)),three slopes(≤20°,20°-30°,30°-40°)and two aspects(shady slope and sunny slope).[Result](1)The fine root biomass density in 0-100 cm soil layer exhibited a unimodal pattern with the increase in stand density,reaching its peak at 606.19 g/m3 with M4 density.The slope and aspect showed no significant impact on fine root biomass density.The density of fine root biomass decreased significantly with the increase of soil depth(P<0.05),mainly concentrated in 0-20 cm soil layer,accounting for more than 38%.(2)With the increase of stand density,the fine root length density of 0-100 cm soil layer showed a unimodal pattern(the maximum value with 3 639.73 m/m2 at M4 density),and the specific root length and specific surface area showed a trend of decreasing first and then increasing(the minimum values with 601 cm/g and 101.09 cm2/g,respectively).While slope and aspect had no significant effects on the morphology and vertical distribution of fine roots.In the vertical direction,the ratio of fine root length density in 0-40 cm soil layer of each stand density was more than 60%.The specific root length and specific surface area of the 0-20 cm soil layer initially decreased and then increased as stand density increased(P<0.05).(3)Correlation analysis showed that stand density and soil depth significantly influenced fine root biomass density and morphology.Fine root biomass density and root length density were significantly positively correlated with stand density,soil total carbon,total nitrogen and organic carbon,significantly negatively correlated with soil depth and C∶N.Specific root length and specific surface area were significantly negatively correlated with stand density and soil organic carbon,and significantly positively correlated with soil depth(P<0.05).[Conclusion]Stand density is a key regulatory factor for fine root characteristics of P.tabuliformis plantations.Stand management measures can be used to adjust stand density and fine root survival strategies,so as to improve the adaptability of P.tabuliformis plantations to cope with environmental stress,and provide theoretical support for sustainable management of artificial forest in semi-arid regions.
Pinus tabuliformis plantationfine root biomassmorphological characteristics of fine rootsvertical distributioninfluencing factors
万方数据
维普
