Eucalypt establishment in agricultural landscapes and implications for landscape-scale restoration

Multifunctional agriculture (MFA) has attracted increased attention from academics and policymakers in recent years. Academic researchers have utilised various approaches to assess and measure the multifunctionality of agriculture and rural landscapes. This paper outlines the nature of MFA and key supporting policies, before reviewing the applied research approaches, drawing primarily from the European Union and China where specific policies on MFA have been implemented to support rural development and promote sustainable rural communities. Four distinct types of valuation of modern MFA are recognised: economic, biophysical, socio-cultural, and holistic. Following a search of both the recent and older MFA literature, evaluations of the strengths and weaknesses of quantitative, qualitative, and mixed methods applications are provided using examples from a range of recent studies. The review illustrates the diversity of approaches to measure MFA. While noting that many studies operate at a landscape scale, the challenge remains that the lack of commonality in the research approaches applied means it is difficult to provide effective comparisons between studies or to compare findings. A future research agenda will need to emphasise the need for more consideration of the roles of MFA research to support decision-makers, especially policy makers, but also farmers who largely make decisions for individual farms but, if considered collectively, can transform production systems at a landscape scale.

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Agroecology landscapes

Landscape Ecology ◽

10.1007/s10980-021-01248-0 ◽

2021 ◽

Author(s):

Ph. Jeanneret ◽

S. Aviron ◽

A. Alignier ◽

C. Lavigne ◽

J. Helfenstein ◽

...

Keyword(s):

Landscape Ecology ◽

Spatial Scales ◽

Landscape Scale ◽

Agroforestry Systems ◽

Agricultural Landscapes ◽

Biological Interactions ◽

Natural Habitats ◽

Bottom Up ◽

Context Specific ◽

Individual Farm

Abstract Context Agroecology combines agronomic and ecological concepts. It relies on the enhancement of biodiversity and related ecosystem services to support agricultural production. It is dependent on biological interactions for the design and management of agricultural systems in agricultural landscapes. Objectives We review the role of landscape ecology to understand and promote biodiversity, pest regulation and crop pollination for the designing of “agroecology landscapes”. We illustrate the use of landscape ecological methods for supporting agroforestry systems as an example of agroecological development, and we propose pathways to implement agroecology at landscape scale. Methods The state of the art of how landscape ecology contributes to agroecology development is summarized based on a literature review. Results Agroecology requires thinking beyond the field scale to consider the positioning, quality and connectivity of fields and semi-natural habitats at larger spatial scales. The spatial and temporal organisation of semi-natural elements and the crop mosaic interact. Understanding this interaction is the pre-requisite for promoting patterns and mechanisms that foster biodiversity and ecosystem service provision. Promoting agroecological practices beyond individual farm borders can be rooted in a bottom-up approach from agroecological lighthouse farms to farm networks to amplify agroecology adoption at the landscape scale. Conclusions Achieving agricultural landscapes composed of fields and farms following agroecological management requires understanding of biodiversity patterns, biological interactions and mechanisms that determine and boost ecosystem functioning to improve services at landscape scale, involving farmers in a bottom-up and context-specific approach.

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Remnant tree decline in agricultural regions of South Australia.

Pacific Conservation Biology ◽

10.1071/pc140366 ◽

2014 ◽

Vol 20 (4) ◽

pp. 366 ◽

Cited By ~ 1

Author(s):

Alena Mogoutnov ◽

Jackie Venning

Keyword(s):

Agricultural Intensification ◽

South Australia ◽

Landscape Scale ◽

Agricultural Landscapes ◽

Management Options ◽

Time Period ◽

Eucalypt Woodlands ◽

Scattered Trees ◽

Agricultural Regions ◽

Privately Owned

Agricultural landscapes in southern Australia were once dominated by temperate eucalypt woodlands of which only fragmented patches and scattered trees in paddocks remain. This study focuses on the decline of scattered trees in the Mount Lofty Ranges and South East agricultural regions of South Australia. A combination of digitized aerial photography and satellite imagery was used to extend a previous assessment of decline undertaken in the early 1980s and increase the period over which decline was assessed to 58–72 years. A total of 17 049 scattered trees were counted from the earliest time period assessed over 11 sites of which 6 185 trees were lost by 2008 — a 36 % decline. Recruitment of 2 179 trees during this period was evident. Imagery indicates that clearing for agricultural intensification is the primary cause of the decline. A range of management options and policy settings are required to reverse the decline notwithstanding the challenges of implementation at a landscape scale across privately owned land.

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Disentangling multiple drivers of pollination in a landscape-scale experiment

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2013.2667 ◽

2014 ◽

Vol 281 (1774) ◽

pp. 20132667 ◽

Cited By ~ 24

Author(s):

Christof Schüepp ◽

Felix Herzog ◽

Martin H. Entling

Keyword(s):

Fruit Set ◽

Landscape Scale ◽

Agricultural Landscapes ◽

Pollen Competition ◽

Floral Resources ◽

Cherry Tree ◽

Pollinator Visitation ◽

Flower Density ◽

Scale Experiment ◽

Cherry Trees

Animal pollination is essential for the reproductive success of many wild and crop plants. Loss and isolation of (semi-)natural habitats in agricultural landscapes can cause declines of plants and pollinators and endanger pollination services. We investigated the independent effects of these drivers on pollination of young cherry trees in a landscape-scale experiment. We included (i) isolation of study trees from other cherry trees (up to 350 m), (ii) the amount of cherry trees in the landscape, (iii) the isolation from other woody habitats (up to 200 m) and (iv) the amount of woody habitats providing nesting and floral resources for pollinators. At the local scale, we considered effects of (v) cherry flower density and (vi) heterospecific flower density. Pollinators visited flowers more often in landscapes with high amount of woody habitat and at sites with lower isolation from the next cherry tree. Fruit set was reduced by isolation from the next cherry tree and by a high local density of heterospecific flowers but did not directly depend on pollinator visitation. These results reveal the importance of considering the plant's need for conspecific pollen and its pollen competition with co-flowering species rather than focusing only on pollinators’ habitat requirements and flower visitation. It proved to be important to disentangle habitat isolation from habitat loss, local from landscape-scale effects, and direct effects of pollen availability on fruit set from indirect effects via pollinator visitation to understand the delivery of an agriculturally important ecosystem service.

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Effects of Aphid Density and Plant Taxa on Predatory Ladybeetle Abundance at Field and Landscape Scales

Insects ◽

10.3390/insects11100695 ◽

2020 ◽

Vol 11 (10) ◽

pp. 695

Author(s):

Hongsheng Pan ◽

Bing Liu ◽

Coline C. Jaworski ◽

Long Yang ◽

Yongqiang Liu ◽

...

Keyword(s):

Plant Species ◽

Local Field ◽

Growing Season ◽

Landscape Scale ◽

Agricultural Landscapes ◽

Field Scale ◽

Diverse Range ◽

Positive Correlation ◽

Regional Landscape ◽

Landscape Scales

In agroecosystems, predatory ladybeetles play an important role in restraining aphid population growth and suppressing aphid populations. They can adapt to various habitats and make use of various aphid species associated with multiple host plants during their life cycle. Agricultural landscapes in China are composed of a mosaic of small fields with a diverse range of crops, and how ladybeetles make use of host plant diversity in such landscapes has rarely been documented. In this study, we examined the relationship between aphid densities and ladybeetle densities in two different settings: (i) on the majority of plant species (including crops, trees, and weeds) at a local field scale in 2013 and 2014, and (ii) in paired cotton and maize crop fields at a regional landscape scale in 2013. Overall, we found that aphid abundance determined predatory ladybeetle abundance at both the local field and landscape scales, and there was a positive correlation between aphid densities and ladybeetle densities. However, plant taxa had no significant influence on the predatory ladybeetle abundance at the local field scale. In addition, the effect of aphids on ladybeetles abundance was influenced by the crop type and growing season at the regional landscape scale. There was a significant positive correlation between aphids and ladybeetles populations on cotton only in July and August, whereas the correlation was significant for maize throughout the whole growing season. We also conducted an analysis of the stable carbon isotope ratios of the adult ladybeetles caught in cotton and maize fields (C3 and C4 crops, respectively) in a regional landscape-scale survey in 2013. The δ13Cvalue indicated that most prey aphids for ladybeetles originated from crops where aphids are abundant (cotton in June and July; both maize and cotton in August).These findings improved our understanding of the migration and dispersal of ladybeetles among different habitats and plant species and provided insight into the promotion of the regional conservation and pest control of natural enemies in northern China.

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Home Range and Habitat Selection of Long-Eared Owls (Asio Otus) in Mediterranean Agricultural Landscapes (Crete, Greece)

Avian Biology Research ◽

10.3184/175815618x15263010605630 ◽

2018 ◽

Vol 11 (3) ◽

pp. 204-218 ◽

Cited By ~ 3

Author(s):

D. Emin ◽

A.G. Toxopeus ◽

Ir.T.A. Groen ◽

I. Kontogeorgos ◽

E. Georgopoulou ◽

...

Keyword(s):

Habitat Selection ◽

Home Range ◽

Model Performance ◽

Home Range Size ◽

Landscape Scale ◽

Agricultural Landscapes ◽

Range Size ◽

Nominal Scale ◽

Wide Range ◽

Selection Of

The Long-eared Owl (Asio otus) in Crete (Greece) is a common agricultural species affected by the recent changes in agro-forestry systems. Concrete studies of habitat selection are needed in order to improve our knowledge of its foraging behaviour in managed rural landscapes. In the present study, we analysed the home range size and habitat selection of 11 Long-eared Owls inside olive groves in the plain of central Crete using radio tracking data and remote sensing images. Six nominal scale and 11 landscape scale predictors were used for habitat selection analysis, using a maximum entropy approach. Home range size ranged between 337 and 969 ha while a 52% of home range overlap was observed suggesting that Long-eared Owls do not defend hunting territories. At the nominal scale, distance to potential roosts (trees) was the most important contributor to model performance, followed by vegetation heterogeneity. Furthermore, local heterogeneity of greenness was a better predictor than simply greenness at the presence location. At the landscape scale the amount of habitat openness significantly improved model performance. Incorporating landscape heterogeneity improved habitat selection prediction compared to using only discrete land cover classification. Results of our study pinpoint that although Long-eared Owls exhibit a wide range of habitat tolerance, they prefer mixed habitat conditions avoiding particularly open areas or dense olive plantations. The research has implications in the face of new reforms of European Common Agricultural policy which emphasised the importance of landscape structure in preserving biodiversity in agricultural areas of Europe.

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Fire effects on pollination in a sexually deceptive orchid

International Journal of Wildland Fire ◽

10.1071/wf15172 ◽

2016 ◽

Vol 25 (8) ◽

pp. 888 ◽

Cited By ~ 7

Author(s):

Julian Brown ◽

Alan York ◽

Fiona Christie

Keyword(s):

Prescribed Fire ◽

Scale Effects ◽

Spatial Scales ◽

Fire Effects ◽

Landscape Scale ◽

Local Scale ◽

Agricultural Landscapes ◽

Pollinator Visitation ◽

Age Class ◽

Landscape Scales

Research into the effectiveness of prescribed fire in managing pollination has only recently begun. The effects of fire on pollination have not been explored in sexually deceptive systems. Further, the potential for multiple effects operating at different spatial scales has not been explored in any pollination system despite multiscale effects on pollination observed in agricultural landscapes. We observed the frequency of pollinator visitation to flowers of sexually deceptive Caladenia tentaculata and related it to the post-fire age class of the vegetation at local and landscape scales. We also related the number of the pollinator’s putative larval hosts (scarab beetles) captured at these sites to age class. At the local scale (i.e. the sample location), visitation was highest in recently burnt sites. At the landscape scale, positive associations were observed between (1) putative pollinator hosts and vegetation burnt 36–50 years ago, and (2) pollinator visitation and vegetation burnt ≥50 years ago. Local- and landscape-scale effects on visitation were synergistic, such that visitation was greatest when fire age was heterogeneous within pollinator foraging range.

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River Dikes in Agricultural Landscapes: The Importance of Secondary Habitats in Maintaining Landscape-Scale Diversity

Wetlands ◽

10.1007/s13157-016-0734-y ◽

2016 ◽

Vol 36 (2) ◽

pp. 251-264 ◽

Cited By ~ 7

Author(s):

Zoltán Bátori ◽

László Körmöczi ◽

Márta Zalatnai ◽

László Erdős ◽

Péter Ódor ◽

...

Keyword(s):

Landscape Scale ◽

Agricultural Landscapes ◽

Secondary Habitats

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Net effects of field and landscape scale habitat on insect and bird damage to sunflowers

10.1101/804328 ◽

2019 ◽

Cited By ~ 1

Author(s):

Sara M. Kross ◽

Breanna L. Martinico ◽

Ryan P. Bourbour ◽

Jason M. Townsend ◽

Chris McColl ◽

...

Keyword(s):

Habitat Type ◽

Landscape Scale ◽

Agricultural Landscapes ◽

Woody Vegetation ◽

Field Margins ◽

Field Margin ◽

Bird Abundance ◽

Avian Abundance ◽

Bird Damage ◽

Seed Crops

AbstractAgriculture-dominated landscapes harbor significantly diminished biodiversity, but are also areas in which significant gains in biodiversity can be achieved. Planting or retaining woody vegetation along field margins can provide farmers with valuable ecosystem services while simultaneously benefitting biodiversity. However, when crops are damaged by the biodiversity harbored in such vegetation, farmers are reluctant to incorporate field margin habitat onto their land and may even actively remove such habitats, at cost to both farmers and non-target wildlife. We investigated how damage by both insect pests (sunflower moth, Homoeosoma electellum) and avian pests to sunflower (Helianthus annuus) seed crops varied as a function of bird abundance and diversity, as well as by landscape-scale habitat. Surveys for insect damage, avian abundance, and bird damage were carried out over two years in 30 different fields on farms in California’s Sacramento Valley. The mean percentage of moth-damaged sunflowers sampled was nearly four times higher in fields that had bare or weedy margins (23.5%) compared to fields with woody vegetation (5.9%) and decreased in both field types as landscape-scale habitat complexity declined. Birds damaged significantly fewer sunflower seeds (2.7%) than insects, and bird damage was not affected by field margin habitat type, landscape-scale habitat variables, or avian abundance, but was significantly higher along field edges compared to ≥ 50m from the field edge. Avian species richness nearly doubled in fields with woody margin habitat compared to fields with bare/weedy margins in both the breeding season and in fall. These results indicate that the benefits of planting or retaining woody vegetation along sunflower field margins could outweigh the ecosystem disservices related to bird damage, while simultaneously increasing the biodiversity value of intensively farmed agricultural landscapes.

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Large carabids enhance weed seed removal in organic fields and in large-scale, but not small-scale agriculture

Landscape Ecology ◽

10.1007/s10980-020-01157-8 ◽

2020 ◽

Author(s):

Christina Fischer ◽

Friederike Riesch ◽

Teja Tscharntke ◽

Péter Batáry

Keyword(s):

Body Size ◽

Weed Control ◽

Large Scale ◽

Landscape Scale ◽

Agricultural Landscapes ◽

Biological Weed Control ◽

Seed Removal ◽

Weed Seed ◽

Activity Density ◽

Wheat Seeds

Abstract Context Biological weed control by seed predators is an ecosystem service reducing weed population densities in agricultural landscapes. Drivers of seed predation are manifold and may change with spatial scales considered. Objectives We aimed at identifying the functional identity of seed predators, food web interactions and feeding links between weed and wheat seeds, considering the causal relationships between local and landscape-scale patterns. Methods We investigated direct and indirect effects of local management intensity in winter wheat fields (organic vs. conventional farming), local crop characteristics (wheat density and height), edge effects, landscape composition (measured as land-use diversity) and configuration (edge length) on carabid beetles of different body size (large vs. small carabids), and removal of weed and wheat seeds. Results We showed the importance of indirect local- and landscape-scale effects for weed seed removal via the activity density, but not assemblage composition, of large, but not small carabids, which was driven by few ubiquitous species. The activity density of large carabids increased with decreasing wheat density and increasing wheat height, which was highest in organic fields and in landscapes with low compositional and configurational heterogeneity. Further, the availability of nutrient-rich wheat seeds enhanced weed seed removal rates. Conclusions We found highest weed seed removal via large carabids in organic fields in large-scale agricultural landscapes. Predator body size and species identity as well as the availability of additional food items need to be taken into account for better predicting the biological weed control potential and reducing the use of plant protection products.

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