Impacts of catchment restoration on water availability and drought resilience in Ethiopia: A meta‐analysis

Meaza, Hailemariam; Abera, Wuletawu; Nyssen, Jan

doi:10.1002/ldr.4125

Cited by 10 publications

(6 citation statements)

References 79 publications

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“…Similar increases in baseflow have also been observed under various drier, non-tropical conditions (but deep soils), such as in Texas after heavy grazing ceased [133], in montane Ethiopia after implementing soil conservation measures coupled with a judicious use of native trees [134], and in the world's largest afforestation experiment: the Loess Plateau in China [68,135]. For the latter, the increased winter baseflows (during the cold dry season) some 20 years after the widespread introduction of soil conservation measures and vegetation is somewhat puzzling in that the establishment of the shrubs and trees under the prevailing low rainfall has produced a dry layer within the soil that hampers deep percolation and groundwater recharge [136][137][138].…”

Section: Examples Where Forest Restoration Has Increased Baseflows In...supporting

confidence: 62%

“…As much of the tropical world includes seasonally-dry climates [16,157], it is sensible to avoid high tree water use in forestation in such water-limited areas [137,138], also in view of the seemingly more limited opportunities for boosting baseflows through forestation (as opposed to soil and water conservation measures to promote infiltration [134]) compared to wetter areas (Figure 2). Several precautions would help to limit excessive water use by planted vegetation [121,[158][159][160][161][162]: (a) choosing species judiciously (e.g., native, slow-growing or deciduous rather than exotic, fast-growing evergreen trees); (b) maintaining a mosaic of vegetations of different ages and types; (c) avoiding short rotations, overly dense planting, and coppicing; and (d) optimising tree cover in accordance with prevailing rainfall and soil conditions.…”

Section: Recovery Times For Regaining Hydrological Functioning and Ba...mentioning

confidence: 99%

“…More work is needed to characterise and develop suitable management strategies for diverse tropical settings (including areas that have been heavily disturbed or grazed, have acidic or salt-affected soils, or very low or very high rainfall, etc. ), to restore on-site hydrological functioning with potentially positive impacts on the flow regime of affected rivers and streams [134,165,[166][167][168][169].…”

Section: Recovery Times For Regaining Hydrological Functioning and Ba...mentioning

confidence: 99%

“…Makarieva et al [79] and Sheil [183] emphasise the potential benefits of increased tree cover, in general, including strategically placed forestations, possibly spanning across borders, to enhance rainfall and water availability downwind through intensified moisture convergence [184,185]. Similarly, promoting the infiltration of rainfall through soil conservation measures in seasonally dry areas can elevate soil moisture during the rainy and immediate postmonsoon periods [134,165,167]. This, in turn, has a favourable impact on air temperatures (reduced) and seasonal precipitation [186][187][188][189].…”

Section: Increased Tree Cover Moisture Recycling and Precipitationmentioning

confidence: 99%

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Potential for Improved Hydrological Functioning and Stream Baseflows through Forest Landscape Restoration in the Tropics

Bruijnzeel¹,

Peña‐Arancibia²,

Ziegler³

et al. 2023

Preprint

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The large areas being targeted for tropical forest restoration as part of the UN Decade on Ecosystem Restoration will have major consequences for the flow of water through landscapes. Whilst the prevailing mantra that ‘more forest implies less streamflow’ remains true in terms of annual water yields, we demonstrate that opportunities for increased tree cover to improve seasonal flow regimes of streams, particularly baseflows, are important. We discuss several potential positive feedbacks of forest restoration on hydrological processes at various scales, including ‘trade-offs’ between changes in vegetation water use and infiltration after foresting degraded land; the recovery of the capacity of vegetation to capture ‘occult’ precipitation in specific coastal and montane settings; and enhanced moisture recycling and transport at various scales. Modelled changes in baseflow after foresting all degraded land climatically capable of carrying forest in the tropics suggested a positive effect in 10% of the land. For an additional 8%, the effect was predicted to be about neutral (<2 mm/y). We conclude that a more positive narrative regarding the relationship between tropical forestation and water availability is justified. It is time for greater involvement of hydrologists and atmospheric scientists in the development and assessment of forest landscape restoration efforts.

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Section: Examples Where Forest Restoration Has Increased Baseflows In...supporting

confidence: 62%

Section: Recovery Times For Regaining Hydrological Functioning and Ba...mentioning

confidence: 99%

Section: Recovery Times For Regaining Hydrological Functioning and Ba...mentioning

confidence: 99%

Section: Increased Tree Cover Moisture Recycling and Precipitationmentioning

confidence: 99%

See 2 more Smart Citations

Potential for Improved Hydrological Functioning and Stream Baseflows through Forest Landscape Restoration in the Tropics

Bruijnzeel¹,

Peña‐Arancibia²,

Ziegler³

et al. 2023

Preprint

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“…Thus, a systematic literature review may fail to deepen our knowledge in such topic and therefore we decided to apply a meta‐analytic approach to investigate the effects of ground‐based harvesting technologies on the presence of fine roots in the soil. Meta‐analysis is a statistical technique that is used to develop a literature review summarising the results of several studies dealing with the same topic quantitatively (Gatica et al, 2022; Ghorbani et al, 2023; Gong et al, 2021; Meaza et al, 2022). The main benefit of using meta‐analysis is that the results from several studies with comparable experimental designs are statistically analysed to produce overall conclusions that would not have been evident from a single trial (Hedges et al, 1999; Lajeunesse, 2011).…”

Section: Introductionmentioning

confidence: 99%

A Meta‐analysis of the effects of ground‐based extraction technologies on fine roots in forest soils

Latterini,

Dyderski,

Horodecki

et al. 2023

Land Degrad Dev

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Fine roots are an important component of forest soil as they play a key role in fundamental processes like plant nutrition and water supply. As with all the features of forest soil, the compaction related to the forest operations and, in particular, to the wood extraction via ground‐based technologies could lead to a significant impact on the presence of fine roots in the soil affected by the passage of the machines. Considering the lack of a review, we used a meta‐analytic approach to synthesise effect sizes of ground‐based extraction technologies affecting the presence of fine roots in the soil, using a multivariate mixed‐effects meta‐analytic model. The obtained results revealed that the presence of fine roots in the soil affected by the passage of the machines was significantly reduced by both skidding (g = −1.23, 95%CI ‐1.87, −0.60) and forwarding (g = −1.37, 95%CI ‐2.01, −0.74). Due to the higher soil compaction caused by forwarding, this method had a marginally but statistically significant greater impact than skidding. We further confirmed the hypothesis that soil compaction and the presence of fine roots were strongly correlated, with the latter being greatly reduced in compacted soils characterised by higher bulk density. What is more, even more than 20 years after a harvesting intervention, the presence of fine roots was significantly lower in both strip roads (forwarding) and skid trails (skidding) as compared to areas which were not impacted by the machine passage. This shows that fine roots are particularly vulnerable to forest operations. On the other hand, the majority of the trails in the database used for the meta‐analysis were created in countries that favour the creation of a small number of widely used trails. Therefore, it would be scientifically valuable to do a comparative evaluation in various forestry contexts, such as in the Mediterranean area, where the development of the forest trails network is oriented on creating a large number of trails with low traffic volumes. Because machinery‐induced soil compaction is the major driver of the decrease in fine roots in skid trails and strip roads, both the application of best management practices as well as of a smarter planning of the trail network to limit soil compaction are strongly recommended. Both applications are highly recommended to be used in the planning phase and in the practical implementation of logging activities.

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Sustainable Crop Management for Drylands

Rehman,

Mahmood,

Ishfaq

et al. 2023

Climate-Resilient Agriculture, Vol 1

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Impacts of catchment restoration on water availability and drought resilience in Ethiopia: A meta‐analysis

Cited by 10 publications

References 79 publications

Potential for Improved Hydrological Functioning and Stream Baseflows through Forest Landscape Restoration in the Tropics

Potential for Improved Hydrological Functioning and Stream Baseflows through Forest Landscape Restoration in the Tropics

A Meta‐analysis of the effects of ground‐based extraction technologies on fine roots in forest soils

Sustainable Crop Management for Drylands

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