Biophysical drivers for predicting the distribution and abundance of invasive yellow sweetclover in the Northern Great Plains

Landscape Ecology
By: , and 

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Abstract

Context

Yellow sweetclover (Melilotus officinalis; YSC) is an invasive biennial legume that bloomed across the Northern Great Plains in 2018–2019 in response to above-average precipitation. YSC can increase nitrogen (N) levels and potentially cause substantial changes in the composition of native plant species communities. There is little knowledge of the spatiotemporal variability and conditions causing substantial widespread blooms of YSC across western South Dakota (SD).

Objectives

We aimed to develop a generalized prediction model to predict the relative abundance of YSC in suitable habitats across rangelands of western South Dakota for 2019. Our research questions are: (1) What is the spatial extent of YSC across western South Dakota? (2) Which model can accurately predict the habitat and percent cover of YSC? and (3) What significant biophysical drivers affect its presence across western South Dakota?

Methods

We trained machine learning models with in situ data (2016–2021), Sentinel 2A-derived surface reflectance and indices (10 m, 20 m) and site-specific variables of climate, topography, and edaphic factors to optimize model performance.

Results

We identified moisture proxies (Shortwave Infrared reflectance and variability in Tasseled Cap Wetness) as the important predictors to explain the YSC presence. Land Surface Water Index and variability in summer temperature were the top predictors in explaining the YSC abundance. We demonstrated how machine learning algorithms could help generate valuable information on the spatial distribution of this invasive plant. We delineated major YSC hotspots in Butte, Pennington, and Corson Counties of South Dakota. The floodplains of major rivers, including White and Bad Rivers, and areas around Badlands National Park also showed a higher occurrence probability and cover percentage.

Conclusions

These prediction maps could aid land managers in devising management strategies for the regions that are prone to YSC outbreaks. The management workflow can also serve as a prototype for mapping other invasive plant species in similar regions.

Study Area

Publication type Article
Publication Subtype Journal Article
Title Biophysical drivers for predicting the distribution and abundance of invasive yellow sweetclover in the Northern Great Plains
Series title Landscape Ecology
DOI 10.1007/s10980-023-01613-1
Volume 38
Year Published 2023
Language English
Publisher Springer
Contributing office(s) Earth Resources Observation and Science (EROS) Center
Description 17 p.
First page 1463
Last page 1479
Country United States
State Montana, North Dakota, South Dakota, Wyoming
Other Geospatial Northern Great Plains
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