Identifying management‐driven dynamics in vegetation cover: Applying the <i>Compere</i> framework to Cooper Creek, Australia

Donohue, Randall J.; Mokany, Karel; McVicar, Tim R.; O’Grady, Anthony P.

doi:10.1002/ecs2.4006

Cited by 6 publications

(5 citation statements)

References 76 publications

(122 reference statements)

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“…We believe our scheme has advantages over methods that solely use changes in remotely sensed vegetation cover as a surrogate for land management, even the more recent innovative schemes that apply relative benchmarking as a means to distinguish land management components from natural climatic and land condition causes of changes in vegetation cover (Bastin et al, 2012(Bastin et al, , 2014Donohue et al, 2022;Hobbs et al, 2018;Nauman et al, 2017). These schemes would seem to be hindered by difficulties in identifying sufficient reference areas with equivalent climatic, topographic and soil conditions to allow meaningful interpretation of changes in vegetation changes in the target areas of interest.…”

Section: Merits Of the Methodsmentioning

confidence: 99%

“…An ongoing issue with such vegetation cover monitoring schemes has been how to effectively distinguish between changes arising from (i) natural influences such as climatic (weather), topographic and soil factors and (ii) land management influences such as stocking rates. To identify the land management influences, recent innovative schemes have applied a 'relative benchmarking' approach, where the vegetation cover over target pixels is compared in an automated process to the vegetation cover over nearby reference sites that represent minimally disturbed and preferably physically equivalent locations (Bastin et al, 2012(Bastin et al, , 2014Donohue et al, 2022;Hobbs et al, 2018;Nauman et al, 2017). Whilst providing valuable data and insights into land management over their subject areas, these approaches have difficulties and limitations in effectively identifying equivalent reference sites to meaningfully compare with the target sites.…”

Section: Introductionmentioning

confidence: 99%

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Monitoring of sustainable land management using remotely sensed vegetation cover and variable tolerable soil erosion targets across New South Wales, Australia

Gray

Leys

Yang

et al. 2023

Soil Use and Management

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The monitoring of land management practices is vital for the protection of soil resource and the environment. Here, we present a new approach to monitor sustainable land management using widely available remotely sensed data, such as MODIS fractional vegetation cover data. The method is based on the concept of maintaining sufficient vegetation cover to prevent hillslope water erosion beyond tolerable soil erosion targets. The targets were based on long-term natural ero-

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Section: Merits Of the Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Monitoring of sustainable land management using remotely sensed vegetation cover and variable tolerable soil erosion targets across New South Wales, Australia

Gray

Leys

Yang

et al. 2023

Soil Use and Management

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“…Then, more innovative methods for benchmarking changes owing to management can be applied at property and regional scale (e.g. Donohue et al 2022). It is noted that commercial methods to estimate pasture biomass have recently become available (e.g.…”

Section: Conclusion and Areas Of Further Researchmentioning

confidence: 99%

Do regenerative grazing management practices improve vegetation and soil health in grazed rangelands? Preliminary insights from a space-for-time study in the Great Barrier Reef catchments, Australia

et al. 2023

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Regenerative grazing, which generally involves some form of rotational grazing with strategic rest, is increasingly seen as a profitable management approach that will accelerate landscape recovery. However, there is limited quantitative evidence supporting the benefits of this approach in northern Australia. This space-for-time study collected vegetation and soil data from a range of properties in the Burdekin catchment in Queensland that have implemented regenerative grazing strategies for between 5 and 20 years. Data were also collected at adjacent control sites that did not undergo regenerative grazing, but where more traditional continuous set-stocking grazing approaches were applied. Coincident data were also collected from several sites where grazing had been excluded for ~30 years. Data suggested that improvements in vegetation, soil and land condition can be obtained from implementing regenerative grazing principles, although it is likely to take at least 3-5 years, and up to 15-20 years for statistically significant improvements to be measurable at a site, particularly for areas that are moving from a degraded baseline condition. Vegetation attributes such as plant biomass and basal area and litter incorporation all appeared to be better surrogates than percentage ground cover for representing improved landscape condition and soil health. Sites that maintained remotely sensed percentage ground cover at or above the minimally disturbed reference benchmark levels for >10 years, as well as having statistically higher biomass, basal area and litter, had significant increases in total nitrogen (TN) and soil organic carbon (SOC) relative to the local control site. Although there are indications that regenerative grazing can lead to improvements in land condition, this study does not enable us to conclude whether regenerative grazing will accelerate improvements compared with other best-practice grazing land management (GLM) approaches, and further research on the social and economic dimensions of regenerative grazing is needed.

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“…Since the radial pattern around watering points is clearly visible from satellite imagery, recent studies have been conducted by interpreting and modeling the remote sensing data [13,14], which can be processed in a semi-automated and repeatable manner over large and distant regions. For this reason, different remote-sensing models that utilize geographic information systems techniques have been created to calculate the spatial spread of various elements in the vicinity of watering points [5,[13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Applying Remote Sensing Methods to Estimate Alterations in Land Cover Change and Degradation in the Desert Regions of the Southeast Iberian Peninsula

Ramírez-Juidias,

Madueño-Luna,

Madueño-Luna

et al. 2023

Remote Sensing

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Numerous drylands worldwide have experienced degradation of both soil and vegetation in proximity to watering areas. Degradation can be observed in satellite imagery as fading radial brightness belts extending away from the water sources. The main objective of this study was to examine the spatio-temporal patterns of land degradation and rehabilitation in the drylands of the southeast Iberian Peninsula. The brightness index of tasseled cap was discovered to be the best form of spectral transformation for enhancing the contrast between the bright-degraded areas near the points and the darker surrounding areas far from and in between these areas. To comprehend the spatial structure present in spaceborne imagery of two desert sites and three key time periods, semi-variograms were created (mid-late 2000s, around 2015 and 2020). To assess spatio-temporal land-cover patterns, a kriging was used to smooth the brightness index values extracted from 30 m spatial resolution images. To assess the direction and intensity of changes between study periods, a change detection analysis based on kriging prediction maps was performed. These findings were linked to the socioeconomic situation prior to and following the EU economic crisis. The study discovered that degradation occurred in some areas as a result of the region’s agricultural activities being exploited.

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Identifying management‐driven dynamics in vegetation cover: Applying the Compere framework to Cooper Creek, Australia

Cited by 6 publications

References 76 publications

Monitoring of sustainable land management using remotely sensed vegetation cover and variable tolerable soil erosion targets across New South Wales, Australia

Monitoring of sustainable land management using remotely sensed vegetation cover and variable tolerable soil erosion targets across New South Wales, Australia

Do regenerative grazing management practices improve vegetation and soil health in grazed rangelands? Preliminary insights from a space-for-time study in the Great Barrier Reef catchments, Australia

Applying Remote Sensing Methods to Estimate Alterations in Land Cover Change and Degradation in the Desert Regions of the Southeast Iberian Peninsula

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