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Recent progress on the sources of continental precipitation as revealed by moisture transport analysis

Gimeno, Luis ; Vázquez, Marta ; Eiras-Barca, Jorge ; [et al.]

Elsevier BV ; 2020

In: Earth-Science Reviews Vol. 201 ( 2020-02), p. 103070-

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In: Earth-Science Reviews, Elsevier BV, Vol. 201 ( 2020-02), p. 103070-

Type of Medium: Online Resource

ISSN: 0012-8252

URL: Article

DOI: 10.1016/j.earscirev.2019.103070

RVK:

RA 1000

Language: English

Publisher: Elsevier BV

Publication Date: 2020

detail.hit.zdb_id: 1792-9

detail.hit.zdb_id: 2012642-6

SSG: 13

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Projected climate change impacts on tropical life zones in Costa Rica

Birkel, Christian ; Dehaspe, Joni ; Chavarría-Palma, Andrés ; [et al.]

SAGE Publications ; 2022

In: Progress in Physical Geography: Earth and Environment Vol. 46, No. 2 ( 2022-04), p. 180-200

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In: Progress in Physical Geography: Earth and Environment, SAGE Publications, Vol. 46, No. 2 ( 2022-04), p. 180-200

Abstract: Efforts to protect tropical ecosystems aim at implementing biological corridors across the national territory of Costa Rica. However, potential near-future climate change challenges the effectiveness of such conservation measures. For this purpose, we developed near-future climate change scenarios at high spatial resolution using open-access global data from the Copernicus Climate Data Store (CDS). These projections resulted from downscaling (to a 1km 2 national grid) and quantile-mapping bias-correction of the Essential Climate Variables Global Circulation Model (ECV_GCM) ensemble mean from the CDS using a moderate Representative Concentration Pathway 4.5 (RCP4.5). Projections were evaluated with limited local station data and applied to generate future ecosystem indicators (Holdridge Life Zones, HLZs). We show significantly increasing temperatures of 2.6°C with a spatial variability of ± 0.4°C for Costa Rica until 2040 with local differences (higher temperatures projected for the southern Costa Rican Caribbean). The future mean annual precipitation showed slightly wetter conditions (120 ± 43 mm/year) and most prominently in the Costa Rican Caribbean and south Pacific, but no significant drying in the north of Costa Rica by 2040. The bias-corrected climate data were aggregated to decadal and 30-year average (1971–2040) life zone ecosystem indicators that could potentially show ecosystem shifts. Changes in the life zones are most likely due to warmer temperatures and to a lesser extent caused by projected wetter conditions. Shifts are more likely to occur at higher elevations with a potential loss of the sub-tropical rainforest ecosystem. The projections support diminishing tropical dry forests and slightly increasing tropical rain and wet forests in the biological corridors of the driest and wettest regions, respectively. A countrywide spatial uniformity of dominating tropical moist forests (increase from 24% to 49%) at the expense of other HLZs was projected by 2040.

Type of Medium: Online Resource

ISSN: 0309-1333 , 1477-0296

URL: Article

DOI: 10.1177/03091333211047046

RVK:

RA 1000

Language: English

Publisher: SAGE Publications

Publication Date: 2022

detail.hit.zdb_id: 2006623-5

SSG: 14

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The role of low‐level circulation on water vapour transport to central and northern South America: Insights from a 2D Lagrangian approach

Morales, José S. ; Arias, Paola A. ; Martínez, J. Alejandro ; [et al.]

Wiley ; 2021

In: International Journal of Climatology Vol. 41, No. S1 ( 2021-01)

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In: International Journal of Climatology, Wiley, Vol. 41, No. S1 ( 2021-01)

Abstract: The potential role of low‐level circulation on the transport of atmospheric moisture towards Central America and northern South America is studied with the Dynamical Recycling Model (DRM) for the period 1981–2015. The net 2D field for advection of moisture in the DRM is estimated based on two different approaches: from the Vertically Integrated Moisture Flux (VIMF) and from a linear combination of low‐level winds (Ueff). The relative importance of low‐level wind structures is inferred from the comparison of both DRM approaches. The Ueff approach yields larger long‐term estimates of transport from the Pacific compared to the VIMF approach, largely associated with the effect of the low‐level circulation over the eastern Pacific, known as the Choco Jet (CJ). Large differences in the transport estimated by both approaches also appear to be associated with different phases of El Niño‐Southern Oscillation (ENSO), when differences in the low‐level circulation take place over the eastern Pacific and the tropical Atlantic. Similar differences are found for anomalous activity of the CJ and the Caribbean Low‐level Jet (CLLJ). The differences in the magnitude of long‐term estimates and anomalies from both 2D approaches show that details in vertical wind shear are important for the estimation of water vapour transport. However, the sign of the anomalies and correlation patterns under different circulation regimes were the same for both methods. Furthermore, with both approaches, it is found that variability in the low‐level circulation over the eastern Pacific and the tropical Atlantic is substantially related to changes in the vapour transport towards Central America and northern South America. In addition, the robustness of this signal suggests that a simple 2D tool like the DRM may be effectively used to study transport changes under different regimes, like different ENSO phases or climate change scenarios.

Type of Medium: Online Resource

ISSN: 0899-8418 , 1097-0088

URL: Issue

URL: Article

DOI: 10.1002/joc.v41.S1

DOI: 10.1002/joc.6873

RVK:

RA 1000

Language: English

Publisher: Wiley

Publication Date: 2021

detail.hit.zdb_id: 1491204-1

SSG: 14

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