Drivers of irrigated olive grove expansion in Mediterranean landscapes and associated biodiversity impacts

•Area of irrigated olive groves greatly increased in Southern Portugal in 1990–2017.•Irrigated groves mostly replaced open dry farmland (63%) and traditional groves (21%).•Availability of irrigation water on large farms boosted transitions to irrigated groves.•Transitions to irrigated groves had the...

Full description

Saved in:
Bibliographic Details
Published in:Landscape and urban planning 2022-09, Vol.225, p.104429, Article 104429
Main Authors: Morgado, Rui, Ribeiro, Paulo Flores, Santos, José Lima, Rego, Francisco, Beja, Pedro, Moreira, Francisco
Format: Article
Language:English
Subjects:
Agricultural intensification
agricultural land
biodiversity
Counterfactual approach
ecosystems
farm structure
Farmland birds
irrigation
irrigation water
issues and policy
land cover
Land cover change
land use change
landscapes
Mediterranean region
olives
Portugal
Super-intensive olive groves
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Area of irrigated olive groves greatly increased in Southern Portugal in 1990–2017.•Irrigated groves mostly replaced open dry farmland (63%) and traditional groves (21%).•Availability of irrigation water on large farms boosted transitions to irrigated groves.•Transitions to irrigated groves had the worst impacts on farmland birds.•Further expansion of irrigated groves in biodiversity-rich farmland should be prevented. Over the last 30 years, olive farming has experienced a fast and large-scale intensification process across its Mediterranean range, that is reshaping Mediterranean farmland landscapes with associated impacts on biodiversity and ecosystem services. This study aims to analyze irrigated olive grove spatial expansion patterns across a 27–year period in a region of Southern Portugal, by exploring its drivers, describing the involved land-use dynamics, and to evaluating its potential biodiversity impacts. Land cover spatio-temporal dynamics were characterized by comparing recent land cover maps 2017 with those before the intensification upsurge (1990), using a grid of sampling points across the area. To investigate the drivers of intensification, these points were characterized using 10 variables reflecting policy context, previous land use (in 1990), biophysical features, and farm structure, which were used to model land cover transitions resulting in intensive olive farming. Finally, we used a counterfactual approach to assess the impacts of the olive intensification process on biodiversity in relation to alternative land cover change pathways, using farmland birds as an indicator group. We confirmed a large-scale expansion of irrigated olive groves in the region between 1990 and 2017, from being practically absent to covering ca. 6% of the study area. This expansion was made mostly at the expenses of open rainfed annual crops (63%) and, to a lesser degree, traditional rainfed olive groves (21%). Change was driven mainly by the combined effect of the availability of public irrigation water and large farms, although other factors related to legal constraints to land-use change, biophysical context and previous land management were also involved. During the study period, land cover transitions conducting to intensive olive farming were the most harmful for biodiversity, when compared to alternative land cover change pathways. By providing a quantitative insight into the underlying mechanisms and environmental consequences of the olive farming int
ISSN:0169-2046
1872-6062
DOI:10.1016/j.landurbplan.2022.104429