Felix Ratcliff scite author profile

Felix Ratcliff

3Publications

38Citation Statements Received

100Citation Statements Given

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University of California, Berkeley

Publications

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Grazing for Biodiversity in Californian Mediterranean Grasslands

Bartolome¹,

Allen-Díaz²,

Barry³

et al. 2014

Rangelands

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On the Ground • California's Mediterranean climate zone supports grasslands that are biologically diverse. • Livestock grazing is being increasingly used to promote native species diversity at both the pasture and landscape scales. • Several federally and state-listed vertebrates and insects respond positively to grazing to improve habitat by opening and lowering grassland vegetation. More work is needed on enhancement of native plants. • Research results need to be more extensively applied, tested, and monitored under variable conditions.

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Cattle grazing reduces fuel and leads to more manageable fire behavior

Ratcliff¹,

Rao²,

Barry³

et al. 2022

Calif Agr

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Cattle play an important role in wildfire management by grazing fuel on California rangelands. The benefits of cattle grazing have not been thoroughly explored, though. Using statewide cattle inventory, brand inspection and land use data, we have estimated that cattle removed 11.6 billion pounds (5.3 billion kilograms [kg]) of non-woody plant material from California's rangelands in 2017. Regionally, these reductions varied between 174 and 1,020 pounds per grazed acre (195 to 1,143 kg per hectare). Fire behavior is characterized in this paper by flame length. Fire behavior models suggest that these regional fuel reductions lower flame lengths, and lead to more manageable wildfires. In addition, fire-based models show that cattle grazing reduces fuel loads enough to lessen fire hazards in many grazed areas. Moving forward, there may be significant opportunities to expand strategic grazing on rangelands to add extra layers of protection against wildfires.

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Applying ecological site concepts and state‐and‐transition models to a grazed riparian rangeland

Ratcliff

Bartolome

Macaulay

et al. 2018

Ecology and Evolution

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Ecological sites and state‐and‐transition models are useful tools for generating and testing hypotheses about drivers of vegetation composition in rangeland systems. These models have been widely implemented in upland rangelands, but comparatively, little attention has been given to developing ecological site concepts for rangeland riparian areas, and additional environmental criteria may be necessary to classify riparian ecological sites. Between 2013 and 2016, fifteen study reaches on five creeks were studied at Tejon Ranch in southern California. Data were collected to describe the relationship between riparian vegetation composition, environmental variables, and livestock management; and to explore the utility of ecological sites and state‐and‐transition models for describing riparian vegetation communities and for creating hypotheses about drivers of vegetation change. Hierarchical cluster analysis was used to classify the environmental and vegetation data (15 stream reaches × 4 years) into two ecological sites and eight community phases that comprised three vegetation states. Classification and regression tree (CART) analysis was used to determine the influence of abiotic site variables, annual precipitation, and cattle activity on vegetation clusters. Channel slope explained the greatest amount of variation in vegetation clusters; however, soil texture, geology, watershed size, and elevation were also selected as important predictors of vegetation composition. The classification tree built with this limited set of abiotic predictor variables explained 90% of the observed vegetation clusters. Cattle grazing and annual precipitation were not linked to qualitative differences in vegetation. Abiotic variables explained almost all of the observed riparian vegetation dynamics—and the divisions in the CART analysis corresponded roughly to the ecological sites—suggesting that ecological sites are well‐suited for understanding and predicting change in this highly variable system. These findings support continued development of riparian ecological site concepts and state‐and‐transition models to aid decision making for conservation and management of rangeland riparian areas.

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Felix Ratcliff

Grazing for Biodiversity in Californian Mediterranean Grasslands

Cattle grazing reduces fuel and leads to more manageable fire behavior

Applying ecological site concepts and state‐and‐transition models to a grazed riparian rangeland

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