Agriculturally productive yet biodiverse: human benefits and conservation values along a forest-agriculture gradient in Southern Ethiopia

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Agriculturally productive yet biodiverse: human benefits and conservation values along a forest-agriculture gradient in Southern Ethiopia. / Baudron, Frédéric; Schultner, Jannik; Duriaux, Jean Yves et al.
In: Landscape Ecology, Vol. 34, No. 2, 01.02.2019, p. 341-356.

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Baudron F, Schultner J, Duriaux JY, Gergel SE, Sunderland T. Agriculturally productive yet biodiverse: human benefits and conservation values along a forest-agriculture gradient in Southern Ethiopia. Landscape Ecology. 2019 Feb 1;34(2):341-356. doi: 10.1007/s10980-019-00770-6

Bibtex

@article{57d9a39ee91d45a49c523f5864a2bf48,
title = "Agriculturally productive yet biodiverse: human benefits and conservation values along a forest-agriculture gradient in Southern Ethiopia",
abstract = "Context: It remains unclear how agricultural landscapes can best serve multiple purposes such as simultaneously maintaining agricultural productivity and conserving biodiversity. Objectives: Our objective was to assess how important components of biodiversity changed with different land covers, and to uncover whether particular landscapes could simultaneously deliver high agricultural productivity and biodiversity conservation. Methods: In agriculture-forest mosaics of Southern Ethiopia, we assessed tree and bird biodiversity using detrended correspondence analyses and binomial generalized linear mixed effects models in four zones differing in cropland, grassland, and tree cover as well as agricultural production (crop, livestock feed and fuel). Results: Tree and bird communities differed along gradients of cropland, grassland, and tree cover, implying that different species benefit from different types of land management. Bird species with smaller ranges were most abundant in the agricultural zone with highest tree cover, exceeding that of even the forest zone, and demonstrating the value of complex mosaics for conservation. The agricultural zone with the highest tree cover also had the highest total productivity in terms of crop, feed, and fuel, perhaps supported in part by ecosystem services provided by invertebrate-eating birds and trees. Conclusions: Our results challenge current paradigms of agricultural intensification and biodiversity conservation in human dominated landscapes and point to the possibility of achieving both in multifunctional landscapes. Our work also highlights the importance of considering measures of agricultural productivity beyond mere crop yields when assessing the performance of multifunctional landscapes.",
keywords = "Ecological intensification, Ecosystem services, Land sharing, Land sparing, Landscape approach, Landscape mosaics, Multi-functional landscapes, Environmental planning, Sustainability Science, Ecosystems Research",
author = "Fr{\'e}d{\'e}ric Baudron and Jannik Schultner and Duriaux, {Jean Yves} and Gergel, {Sarah E.} and Terry Sunderland",
year = "2019",
month = feb,
day = "1",
doi = "10.1007/s10980-019-00770-6",
language = "English",
volume = "34",
pages = "341--356",
journal = "Landscape Ecology",
issn = "0921-2973",
publisher = "SPB Academic Publishing",
number = "2",

}

RIS

TY - JOUR

T1 - Agriculturally productive yet biodiverse

T2 - human benefits and conservation values along a forest-agriculture gradient in Southern Ethiopia

AU - Baudron, Frédéric

AU - Schultner, Jannik

AU - Duriaux, Jean Yves

AU - Gergel, Sarah E.

AU - Sunderland, Terry

PY - 2019/2/1

Y1 - 2019/2/1

N2 - Context: It remains unclear how agricultural landscapes can best serve multiple purposes such as simultaneously maintaining agricultural productivity and conserving biodiversity. Objectives: Our objective was to assess how important components of biodiversity changed with different land covers, and to uncover whether particular landscapes could simultaneously deliver high agricultural productivity and biodiversity conservation. Methods: In agriculture-forest mosaics of Southern Ethiopia, we assessed tree and bird biodiversity using detrended correspondence analyses and binomial generalized linear mixed effects models in four zones differing in cropland, grassland, and tree cover as well as agricultural production (crop, livestock feed and fuel). Results: Tree and bird communities differed along gradients of cropland, grassland, and tree cover, implying that different species benefit from different types of land management. Bird species with smaller ranges were most abundant in the agricultural zone with highest tree cover, exceeding that of even the forest zone, and demonstrating the value of complex mosaics for conservation. The agricultural zone with the highest tree cover also had the highest total productivity in terms of crop, feed, and fuel, perhaps supported in part by ecosystem services provided by invertebrate-eating birds and trees. Conclusions: Our results challenge current paradigms of agricultural intensification and biodiversity conservation in human dominated landscapes and point to the possibility of achieving both in multifunctional landscapes. Our work also highlights the importance of considering measures of agricultural productivity beyond mere crop yields when assessing the performance of multifunctional landscapes.

AB - Context: It remains unclear how agricultural landscapes can best serve multiple purposes such as simultaneously maintaining agricultural productivity and conserving biodiversity. Objectives: Our objective was to assess how important components of biodiversity changed with different land covers, and to uncover whether particular landscapes could simultaneously deliver high agricultural productivity and biodiversity conservation. Methods: In agriculture-forest mosaics of Southern Ethiopia, we assessed tree and bird biodiversity using detrended correspondence analyses and binomial generalized linear mixed effects models in four zones differing in cropland, grassland, and tree cover as well as agricultural production (crop, livestock feed and fuel). Results: Tree and bird communities differed along gradients of cropland, grassland, and tree cover, implying that different species benefit from different types of land management. Bird species with smaller ranges were most abundant in the agricultural zone with highest tree cover, exceeding that of even the forest zone, and demonstrating the value of complex mosaics for conservation. The agricultural zone with the highest tree cover also had the highest total productivity in terms of crop, feed, and fuel, perhaps supported in part by ecosystem services provided by invertebrate-eating birds and trees. Conclusions: Our results challenge current paradigms of agricultural intensification and biodiversity conservation in human dominated landscapes and point to the possibility of achieving both in multifunctional landscapes. Our work also highlights the importance of considering measures of agricultural productivity beyond mere crop yields when assessing the performance of multifunctional landscapes.

KW - Ecological intensification

KW - Ecosystem services

KW - Land sharing

KW - Land sparing

KW - Landscape approach

KW - Landscape mosaics

KW - Multi-functional landscapes

KW - Environmental planning

KW - Sustainability Science

KW - Ecosystems Research

UR - http://www.scopus.com/inward/record.url?scp=85063162674&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/abf92238-a7ca-3be8-ba1f-e278ee03ee03/

U2 - 10.1007/s10980-019-00770-6

DO - 10.1007/s10980-019-00770-6

M3 - Journal articles

AN - SCOPUS:85063162674

VL - 34

SP - 341

EP - 356

JO - Landscape Ecology

JF - Landscape Ecology

SN - 0921-2973

IS - 2

ER -