Wildfires completely remove the vegetal cover, affect plant diversity and promote soil erosion in the forest ecosystems. Reforestation is essential to recover these important forest components, also in view of the forecasted climate change. Clear indications about suitable soil preparation techniques and a cautious choice of the planted species for successful reforestation actions are needed by forest managers. To improve this knowledge, this study, carried out seven years after a wildfire in a forest area of Central-Eastern Spain, evaluates: i) the short-term effectiveness of a post-fire reforestation work on growth and diversity of planted species, using ten types of shrubs and two soil preparation techniques (machinery planting spot, MPS, and linear subsoiling, LS); ii) the short-term effects of MPS and LS techniques on naturally regenerated plants. In the reforestation work, four of the ten planted species (Pistacia lentiscus L., O. europaea var. sylvestris L., Rhamnus lycioides L., Rosmarinus officinalis L.) showed the highest survival rate, while all individuals of E. fragilis Desf., Arbutus unedo L., Viburnum tinus L., and P. angustifolia L. were dead. Our results showed that P. lentiscus L. and O. europaea var. sylvestris were the species with the highest abundance in the soils treated with MPS and LS, respectively. In relation to naturally regenerated plants, higher number and height of plants were found in areas treated with LS. Both soil treatments influenced the plant diversity, although the species richness decreased in the treated soils compared to the burned and not treated areas. Overall, this study suggests that P. lentiscus appears as the most suitable reforestation species under the experimental conditions. Moreover, soil preparation is not ideal for reforestation after a wildfire, due to the lower regeneration, survival, and species richness found in treated plots in comparison to the burned and not treated areas.
Post-fire restoration effectiveness using two soil preparation techniques and different shrubs species in pine forests of South-Eastern Spain / Garcia Matallana, R.; Lucas-Borja, M. E.; Gomez-Sanchez, M. E.; Uddin, S. M. M.; Zema, D. A.. - In: ECOLOGICAL ENGINEERING. - ISSN 0925-8574. - 178:106579(2022). [10.1016/j.ecoleng.2022.106579]
Post-fire restoration effectiveness using two soil preparation techniques and different shrubs species in pine forests of South-Eastern Spain
Zema D. A.
2022-01-01
Abstract
Wildfires completely remove the vegetal cover, affect plant diversity and promote soil erosion in the forest ecosystems. Reforestation is essential to recover these important forest components, also in view of the forecasted climate change. Clear indications about suitable soil preparation techniques and a cautious choice of the planted species for successful reforestation actions are needed by forest managers. To improve this knowledge, this study, carried out seven years after a wildfire in a forest area of Central-Eastern Spain, evaluates: i) the short-term effectiveness of a post-fire reforestation work on growth and diversity of planted species, using ten types of shrubs and two soil preparation techniques (machinery planting spot, MPS, and linear subsoiling, LS); ii) the short-term effects of MPS and LS techniques on naturally regenerated plants. In the reforestation work, four of the ten planted species (Pistacia lentiscus L., O. europaea var. sylvestris L., Rhamnus lycioides L., Rosmarinus officinalis L.) showed the highest survival rate, while all individuals of E. fragilis Desf., Arbutus unedo L., Viburnum tinus L., and P. angustifolia L. were dead. Our results showed that P. lentiscus L. and O. europaea var. sylvestris were the species with the highest abundance in the soils treated with MPS and LS, respectively. In relation to naturally regenerated plants, higher number and height of plants were found in areas treated with LS. Both soil treatments influenced the plant diversity, although the species richness decreased in the treated soils compared to the burned and not treated areas. Overall, this study suggests that P. lentiscus appears as the most suitable reforestation species under the experimental conditions. Moreover, soil preparation is not ideal for reforestation after a wildfire, due to the lower regeneration, survival, and species richness found in treated plots in comparison to the burned and not treated areas.File | Dimensione | Formato | |
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