Aerial Seeding: An Effective Forest Restoration Method in Highly Degraded Forest Landscapes of Sub-Tropic Regions

Xiao, Xin; Wei, Xiaohua; Liu, Yuanqiu; Ouyang, Xunzhi; Li, Qinglin; Jinkui, Ning

doi:10.3390/f6061748

Cited by 20 publications

(13 citation statements)

References 34 publications

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“…Aerial seeding uses the plane as platform, broadcasts the tree (grass) seed on the proper ground to make the seeds germinate, with the help of natural rainfall and optimum temperature, due to the characteristics of forest's natural renewal ability, and with such methods the forest resources could sequentially expand and the forest vegetation increase. Aerial seeding has been widely used around the world [9][10][11][12][13]. Nevertheless, aerial seeding as a means of vegetation recovery, and its effectiveness on the restoration of ecosystem service function, has been rarely examined [9].…”

Section: Introductionmentioning

confidence: 99%

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Assessment of the Ecosystem Service Function of Sandy Lands at Different Times Following Aerial Seeding of an Endemic Species

Zhang

Guangyu

Li³

et al. 2018

Sustainability

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Desertification is a global and pressing environmental problem in the course of environmental changes, and considerable efforts have been made to restore these degraded ecosystems. Aerial seeding has been widely used to accelerate ecological restoration around the world. However, few efforts have been made to assess the ecosystem service function after aerial seeding has occurred. In this study, we analyzed variations in the ecosystem service function after varying periods of elapsed time after aerial seeding of Hedysarum laeve Maxim. (14a, 30a and 38a) in the Mu Us Sandy Land, China. We also assessed the carbon sequestration ability, biodiversity, soil properties, windbreak and sand-fixation ability on a typical windward slope. We found that the overall assessment value of ecosystem services had generally increased with the elapsed time after aerial seeding. Additionally, the assessment values increased as the slope position moved downwards. Moreover, we observed a gradual replacement of H. laeve by Artemisia ordosica Krasch and grass species with the increase in elapsed years after aerial seeding, indicating a positive succession towards locally native vegetation. Compared with the local natural vegetation, our results suggest that the practice of aerial seeding stimulated vegetation restoration without the need for follow-up field interventions, and the practice of aerial seeding might fit more ecosystems with similar vegetation degradation problems.

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Section: Introductionmentioning

confidence: 99%

“…Aerial seeding has been widely used around the world [9][10][11][12][13]. Nevertheless, aerial seeding as a means of vegetation recovery, and its effectiveness on the restoration of ecosystem service function, has been rarely examined [9].…”

Section: Introductionmentioning

confidence: 99%

Assessment of the Ecosystem Service Function of Sandy Lands at Different Times Following Aerial Seeding of an Endemic Species

Zhang

Guangyu

Li³

et al. 2018

Sustainability

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“…Aerially broadcasting seed may be an option for reintroducing kahikatea propagules to large areas without disturbing plant communities. This method has been successfully employed for restoration purposes in other countries (Bassett et al 2015;Xiao et al 2015).…”

Section: Discussionmentioning

confidence: 99%

Aerial glyphosate application reduces grey willow (Salix cinerea) canopy cover, increases light availability, and stimulates kahikatea (Dacrycarpus dacrydioides) growth

Griffiths¹,

McAlpine²

2017

NZ J Ecol

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Grey willow (Salix cinerea) is widely established in New Zealand's remaining swamps and fens, and in many areas has replaced endemic kahikatea (Dacrycarpus dacrydioides) forest. Conservation managers need to know how to restore willow-invaded wetlands to a resilient natural state, but knowledge on how to achieve this goal is limited. We planted kahikatea seedlings into an intact stand of grey willow and into areas where the herbicides glyphosate or triclopyr had been aerially applied to control willow ~1.5 years earlier. We measured canopy cover, light availability and the growth of planted kahikatea. In areas treated with glyphosate, grey willow canopy cover was reduced to 44% ± 3.7% (95% confidence interval), light availability increased to 64% ± 15% of full sunlight, and kahikatea grew an average of 44 cm ± 11.7 cm in 14 months. In contrast, there was little or no kahikatea growth under the intact willow canopy or in the triclopyr treatment area where grey willow canopy cover remained high and mean light availability was low (25% ± 4% of full sunlight). We conclude that the removal of the grey willow canopy through aerial glyphosate application created favourable conditions for the growth of planted kahikatea and may enable the restoration of kahikatea forest in wetlands dominated by grey willow.

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“…Manuscript to be reviewed zones in China is severely damaged, with reduced biodiversity and deteriorated ecological functions (Liu & Diamond, 2005). Numerous researches have established that vegetation restoration is an important measure to obtain ecological benefits (Gao et al, 2002;Nunezmir et al, 2015;Xiao et al, 2015), such as enhancing biodiversity (Dosskey et al, 2012), the restoration of damaged natural ecological system (Fule´ et al 2012), and the recovery of ecosystem services (Benayas & Bullock, 2009). Revegetation also has numerous positive effects on soil physicochemical characteristics, such as soil bulk density, field capacity , infiltration rates (Wu et al, 2016), soil organic carbon (Georgiadis et al, 2017), and soil nitrogen (Fu et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

Peer Review #3 of "Different revegetation types alter soil physical-chemical characteristics and fungal community in the Baishilazi Nature Reserve (v0.1)"

2019

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The effects of different revegetation types on soil physical-chemical characteristics and fungal community diversity and composition of soils sampled from five different revegetation types (JM, Juglans mandshurica; QM, Quercus mongolica; CB, coniferbroadleaf forest; LG, Larix gmelinii; PK, Pinus koraiensis) in the Baishilazi Nature Reserve were determined. Soil fungal communities were assessed employing ITS rRNA Illunima Miseq high-throughput sequencing. Responses of the soil fungi community to soil environmental factors were assessed through canonical correspondence analysis (CCA) and Pearson correlation analysis. The coniferous forests (LG, PK) and conifer-broadleaf forest (CB) had reduced soil total Carbon (C), total Nitrogen (N), and available N values compared with the broadleaf forest (JM, QM). The average fungus diversity according to the Shannon, ACE, Chao1 and Simpson index were increased in the JM site. Basidiomycota, Ascomycota, Zygomycota, and Rozellomycota were the dominant fungal taxa in this region. The phylum Basidiomycota was dominant in the QM, CB, LG, and PK sites, while, Ascomycota was the dominant phylum in the JM site. The clear differentiation of fungal communities and the clustering in the heatmap and in NMDS plot showed that broadleaf forests, conifer-broadleaf forest, and coniferous forests harboured different fungal communities. The results of the canonical correspondence analysis (CCA) showed that soil environmental factors, such as soil pH, total C, total N, available N, and available Phosphorus (P) greatly influenced the fungal community structure. Based on our results, the different responses of the soil fungal communities to the different revegetation types largely dependent on different forest types and soil physicochemical characteristic in Baishilazi Nature Reserve.

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Aerial Seeding: An Effective Forest Restoration Method in Highly Degraded Forest Landscapes of Sub-Tropic Regions

Cited by 20 publications

References 34 publications

Assessment of the Ecosystem Service Function of Sandy Lands at Different Times Following Aerial Seeding of an Endemic Species

Assessment of the Ecosystem Service Function of Sandy Lands at Different Times Following Aerial Seeding of an Endemic Species

Aerial glyphosate application reduces grey willow (Salix cinerea) canopy cover, increases light availability, and stimulates kahikatea (Dacrycarpus dacrydioides) growth

Peer Review #3 of "Different revegetation types alter soil physical-chemical characteristics and fungal community in the Baishilazi Nature Reserve (v0.1)"

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