Effects of forest roads on vegetation biodiversity and soil characteristics in Hyrcanian forests

Arjmand, Afshin1 ; Kiadaliri, Hadi1 ; Kazemnezhad, Farid2 ; Eshagh Nimvari, Majid2

Published Oct 11, 2023 on Dryad. https://doi.org/10.5061/dryad.n5tb2rc2c

Data files

Oct 11, 2023 version files 398.82 KB

appendix_kiadaliri_(species_tables).docx

21.53 KB
appendix_kiadaliri_(species_tables).pdf

192.25 KB
Data_Abundance_species.xlsx

14.29 KB
Data_biodiversity.xls

70.66 KB
Data_soil.xls

95.74 KB
README.md

4.35 KB

Abstract

As one of the main components of forest operations and sustainable management, forest roads affect the vegetation communities around the road. In this study, the effects of the edge of forest roads were investigated to understand the changes caused by the network of forest roads on the Hyrcanian forest ecosystem in northern Iran. In order to investigate the impact of forest roads on the biodiversity of herbaceous species, tree regeneration and lichen. Sampling was used at different distances from the road in two control and harvested areas. The effects of roads on vegetation diversity in relation to soil characteristics were also investigated. The results showed that harvesting caused the destruction and reduction of tree regeneration, herbaceous and lichen, but the physical and chemical properties of the soil were not affected. The distance from the road has affected the diversity and richness of herbaceous and lichen, tree regenaration and all physical and chemical characteristics of the soil (except C). There was a significant correlation between most of the physical and chemical properties of the soil with the regeneration of trees and herbaceous species. Also, most of the physical and chemical properties of soil have increased with increasing distance from the road. Results showed that the buffering effect of the roadside in these forests up to a distance of 45 meters had an effect on biodiversity and richness. Also, the results of this study are consistent with the fact that the road affects the biodiversity and properties of the forest soil.

README: Effects of forest roads on vegetation biodiversity and soil characteristics in Hyrcanian forests

In this study, the ecological effects of the road on some physical and chemical properties of the soil, and the biodiversity of plants (herbaceous cover, tree regeneration and lichen) with Shannon-Wiener diversity index, Margalf's richness index and uniformity index Pielou's evenness index was investigated in Hyrcanian forests in northern Iran.
The dataset file includes the following:

1- Information on the physical and chemical properties of the soil (data soil file)

The parameters include soil moisture percentage (%SM), bulk density (BD) (g/cm³), total porosity (TP%), Soil penetration resistance (PR) (Megapascal), Soil acidity (pH) (H2O 1:2.5), C%, N%, P: soil phosphorus (mg kg^-1), K: potassium (mg kg^-1), Ca: calcium (mg kg^-1) and Mg: magnesium (mg kg^-1) was taken. This information was obtained from sampling in plots along the line of transects at different distances from the road edge (0, 45, 75 and 105 meters) in two controlled and harvested areas. The samples were transferred to the laboratory and the values of the parameters were obtained based on the instructions. Soil data was entered into SPSS software (Ver 21), and statistical calculations were performed in it. The differences in the physical and chemical properties of the soil at different distances from the road and in both the harvested and control areas were analyzed using one-way analysis of variance (ANOVA) and Tukey's test (Table 1 in the article). Pearson's correlation analysis was used to investigate the relationship between soil parameters and the abundance of tree regeneration, herbaceous cover and lichens (Figure 4 in the article). PCA analysis and PC-ORD software were used to investigate the relationship between vegetation biodiversity indices and soil physical and chemical properties (Figure 5 in the article).

2- Biodiversity of plants (herbaceous cover, tree regeneration and lichen) (data biodiversity file)

Information and numbers include Shannon's biodiversity index, Margalf's richness index, and Pielou's evenness index of herbaceous cover, tree regeneration, and lichen. This information was obtained from sampling in plots along the line of transects at different distances from the road edge (0, 45, 75 and 105 meters) in two controlled and harvested areas. Biodiversity indices were calculated with PAST software. Data was entered in Excel and SPSS environment. One-way analysis of variance (ANOVA) and Tukey's test were used to compare the value of each biodiversity index at different distances from the road in harvested and control areas. The results are shown in Figures 2 and 3 in the article.

3- Abundance and names of tree regeneration species, herbaceous cover and lichen (data Abundance species file)

The names and information of the frequency and dominance of tree regeneration species (Table 1), herbaceous cover (Table 2), and lichen (Table 3) in the two regions were harvested and controlled. This information was also obtained from sampling in the plots at different distances from the road edge (0, 45, 75 and 105 meters) in two areas of harvested and controlled. After analyzing the information in Excel and SPSS software, the summary of the information is presented in the form of tables 1, 2 and 3 in the Appendix file.

The results showed that harvesting caused the destruction and reduction of tree, herbaceous and lichen regeneration, but the physical and chemical properties of the soil were not affected. The distance from the road has affected the diversity and richness of herbaceous and lichen, tree regeneration and all physical and chemical characteristics of the soil (except C). There was a significant correlation between most of the physical and chemical properties of the soil with the regeneration of trees and herbaceous species. Also, most of the physical and chemical properties of soil have increased with increasing distance from the road. Results showed that the buffering effect of the roadside in these forests up to a distance of 45 meters had an effect on diversity and richness. Also, the results of this study are consistent with the fact that the road affects the biodiversity and properties of the forest soil.

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Methods

In this study, the effects of the edge of forest roads were investigated to understand the changes caused by the network of forest roads on the Hyrcanian forest ecosystem in northern Iran. Field and laboratory data have been used for statistics and collection of vegetation and soil data. A 120-meter buffer was created on the side of the excavation shoulder for inventory and collection of vegetation and soil data. Then this buffer was divided into distances D0 (side of the road), D15 (15 meters from the roadside), D45 (45 meters from the roadside), D75 (75 meters from the road side), and D105 (105 meters from the roadside). The length of the sampling line to the end of the selected road was determined on the map. Sampling lines were located with a width distance of 50 meters in the 2 harvesting and control forests. Then, perpendicular to the road, square macro-plots with an area of 400 m² were located on these roads. Inside each macroplot, 4 rectangular microplots with an area of 4 m² were created to collect and record the type of plant species, abundance of herbaceous cover, and regeneration and collection of soil samples. Identification of plant species was done based on common methods and using identification keys. To collect lichen samples, frames with dimensions of 40 * 60 cm were prepared. Sampling was carried out from a height of 1.30 meters. The Corticolous lichen samples were identified by reliable sources of lichenology and using laboratory studies and existing identification keys. The physiochemical properties of the soil were investigated at the sampling site and in the laboratory based on the instructions. Parameters of soil including of soil moisture percentage (SM), wet weight (WW), dry weight (WD), bulk density (BD), total porosity (TP%), soil penetration resistance (PR), C%, N%, P, K, Ca, Mg were measured. In the next step, Shannon-Wiener biodiversity index, Margalf richness index and Pielou evenness index of herbaceous cover, tree regeneration and lichen were obtained based on calculations. ANOVA analysis was used to compare the value of each biodiversity index at different distances from the road. The same test was used to investigate the effect of distance from the road on soil properties. Pearson correlation analysis was used to investigate the relationship between soil parameters and the abundance of tree regeneration, harbaceous and lichens. PCA analysis was used to investigate the relationship between vegetation and soil physical and chemical properties.