A synthesis and future research directions for tropical mountain ecosystem restoration

Christmann, Tina; Menor, Imma Oliveras

doi:10.1038/s41598-021-03205-y

Cited by 33 publications

(35 citation statements)

References 169 publications

(196 reference statements)

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“…Although our mapping exercise revealed that the information in a given publication often informed multiple barriers, pathways for action and action lines of the UNDER strategy, a few distinct information gaps were identified, specifically related to three action lines within the Technical Capacity Pathway: (1) long-term research, (2) monitoring, and (3) sustaining restoration. Collectively, these gaps reflect previous findings highlighting that long-term monitoring is notably missing from ecosystem restoration projects and that most ecosystem restoration research is biased toward small-scale and shortlived projects, thus hampering long-term sustainability and social learning (Wortley et al 2013;Cooke et al 2019;Christmann & Menor 2021). This is a fundamental challenge that needs to be addressed in the context of the UNDER.…”

Section: Discussionmentioning

confidence: 67%

“…Another important finding in our assessment was the large number of publications focused on forest ecosystems at the expense of grassland, dryland and mangrove ecosystems, underscoring the need for enhanced focus on restoring these as suggested elsewhere (Buisson et al 2020;Dudley et al 2020;Farrar et al 2020). A recent bibliometric analysis by Guan et al (2019) on ecosystem restoration also showed that forests are overrepresented, while a review on tropical montane restoration reported that grasslands were disproportionally underrepresented in comparison to forest ecosystems (Christmann & Menor 2021). Although tree planting is perceived as an effective strategy to mitigate atmospheric climate change (Bastin et al 2019;Busch et al 2019), native grasslands and mangrove ecosystems are also significant carbon sinks.…”

Section: Discussionmentioning

confidence: 71%

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Mapping the information landscape of the United Nations Decade on Ecosystem Restoration Strategy

Meli

Schweizer²,

Winowiecki

et al. 2022

Restoration Ecology

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The strategy of the United Nations Decade on Ecosystem Restoration identifies three pathways for action for overcoming six global barriers thought to hamper upscaling. We evaluated 6,023 peer-reviewed and gray literature papers published over the last two decades to map the information landscape underlying the barriers and associated pathways for action across world regions, terrestrial ecosystem types, restorative interventions and their outcomes. Overall, the literature addressed more the financial and legislative barriers than the technical and research-related ones, supporting the view that social, economic and political factors hamper scaling up ecosystem restoration. Latin America, Africa, and North America were the most prominent regions in the literature, yet differed in the number of publications addressing each barrier. An overwhelming number of publications focused on forests (78%), while grasslands (6%), drylands (3%), and mangroves (2%) received less attention. Across the three pathways for action, the action lines on (1) promoting long-term ecosystem restoration actions and monitoring and (2) education on restoration were the most underrepresented in the literature. In general, restorative interventions assessed rendered positive outcomes except those of a political, legislative or financial nature which reported negative or inconclusive outcomes. Our indicative assessment reveals critical information gaps on barriers, pathways, and types of restorative interventions across world regions, particularly related to specific social issues such as education for ecosystem restoration. Finally, we call for refining "strength of evidence" assessment frameworks that can systematically appraise, synthesize and integrate information on traditional and practitioner knowledge as two essential components for improving decision-making in ecosystem restoration.

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Section: Discussionmentioning

confidence: 67%

Section: Discussionmentioning

confidence: 71%

Mapping the information landscape of the United Nations Decade on Ecosystem Restoration Strategy

Meli

Schweizer²,

Winowiecki

et al. 2022

Restoration Ecology

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“…Most of the studies come from low and mid-altitude humid forests in the neotropics (≈1,400 m) , wherein recovery is subject to mesic abiotic conditions. In contrast, AN research in tropical ecosystems wherein recovery might be mainly hindered by abiotic limitations is incipient according to recent bibliometric analyses (Shaw et al 2020;Christmann & Menor 2021;Garibello et al 2021). Such is the case of high Andean forests (HAF; 2,600-3,500 m; Cleef 2013), wherein tree colonization and growth heavily depend on species tolerance to low temperatures and excessive solar radiation (Bader et al 2007), as well as strong winds and slow organic matter decomposition (Guariguata 2005).…”

Section: Introductionmentioning

confidence: 99%

“…Therefore, more studies are needed on the implications of tree islands in HAF. Research gaps suggest that this approach is also required globally at high-altitude forest all along the tropical belt (Christmann & Menor 2021).…”

Section: Introductionmentioning

confidence: 99%

Trade‐offs at applying tree nucleation to restore degraded high Andean forests in Colombia

Barrera-Cataño

Garibello

Moreno‐Cárdenas

et al. 2022

Restoration Ecology

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Tree islands, the more recognizable type of applied nucleation, and passive restoration have been proven as cost‐effective restoration strategies. Comparison between them is a priority, particularly through paired experiments in ecosystems wherein restoration research is scarce, such as high forest in the northern Andes (high Andean forests [HAF]). This ecosystem is important given its environmental benefits but also because vegetation development is more limited by abiotic conditions, unlike tropical moist forests. To address these gaps, we set up an experiment in a logged pine plantation comparing the effect of nuclei and passive restoration on vegetation structure and diversity as well as natural regeneration. In this case, we divided emergent shoots into three functional groups related to restoration goals: invasive herbs, páramo species, and woody recruits. After 3 years, nuclei had higher coverage, height, and diversity, but this was exclusively due to planted trees, as nuclei did not affect the abundance of invasive herbs and páramo species. More importantly, the abundance and richness of woody recruits were kept low and constant under nuclei, likely as a by‐product of plantation density. Conversely, it gradually increased at passive restoration plots. Since nuclei contribute to structure and diversity and passive restoration contributes to woody recruits, we propose a combination of both to restore HAF. Possible changes in the direction of the interaction between planted trees and recruits confirm the need for long‐term monitoring to accurately determine the potential of tree nuclei in HAF.

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“…We demonstrate that optical measurements are sufficiently sensitive to monitor the changes in surface properties as induced by molecular H 2 , [ 28,42 ] which we use instead of atomic H, in contrast to previous experiments. [ 33,35,37 ] Corresponding DFT‐based calculations model the experiment.…”

Section: Introductionmentioning

confidence: 99%

Adsorbate‐Induced Modifications in the Optical Response of the Si(553)–Au Surface

Chandola

Sanna

Hogan

et al. 2022

Physica Rapid Research Ltrs

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atoms on selected semiconducting surfaces leads to a variety of ordered, atomic-scale chain structures. [1][2][3][4][5][6][7][8][9][10][11] Au-induced reconstructions on vicinal Si(111) surfaces have been studied intensively for years, as small coverages of Au stabilize the Si terraces by the formation of Au rows, which are expected to feature exciting physical properties such as quantization of conductance, spin-charge separation, charge and spin density waves, and Luttinger liquid behavior. [12][13][14][15][16] The Si(553)-(5 Â 2)-Au surface was first investigated by Crain et al., [17] and reported to show metallic states in the electronic band structure by angle-resolved photoemission spectrosopy. Since then, numerous lines of research have emerged, dedicated to the investigation of the atomic structure, [18][19][20][21] lattice dynamics, [22] spin patterns, [23][24][25] phase transitions, [26,27] as well as electronic structure and its adsorptioninduced modifications. [28][29][30][31][32] According to our current knowledge of the system, the hightemperature phase of the Si(553)-Au surface is stable from room temperature down to about 120 K. It consists of a double Au

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A synthesis and future research directions for tropical mountain ecosystem restoration

Cited by 33 publications

References 169 publications

Mapping the information landscape of the United Nations Decade on Ecosystem Restoration Strategy

Mapping the information landscape of the United Nations Decade on Ecosystem Restoration Strategy

Trade‐offs at applying tree nucleation to restore degraded high Andean forests in Colombia

Adsorbate‐Induced Modifications in the Optical Response of the Si(553)–Au Surface

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