Dead tree removal after drought mortality increases understory plant diversity in a mixed conifer forest
Data files
Feb 11, 2025 version files 98.68 KB
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DATA_Wayman_and_Sorenson.zip
95.19 KB
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README.md
3.49 KB
Abstract
Altered disturbance regimes during a time of rapid global change present challenges for decision-making concerning ecosystem recovery. In the Sierra Nevada of California, USA, 129 million trees died due to severe drought from 2012-2017, raising concerns over forest ecosystem health and dead fuel loads available for future wildfires. One approach to managing forests after tree mortality is to cut and remove standing dead trees, yet the ecological effects of this management practice are not well understood, particularly in western U.S. montane coniferous forests. We compared the management practice of dead tree removal versus no removal following severe drought and insect-induced tree mortality in the Sierra Nevada and evaluated the initial effects on understory plants in terms of diversity, vegetative cover, and community composition. Understory plants were sampled in 122 paired plots (treated and untreated; 22 m diameter) spanning 300 km of the Sierra Nevada one to five years after the removal of recently dead trees. We found that plant species diversity was higher where dead trees were removed across all plant subgroups (annuals, perennials, shrubs, natives, and non-natives). Higher total plant species richness and annual species richness were associated with lower live tree cover, but shrub and perennial richness were associated with higher estimated soil moisture and not with live tree cover. Understory vegetative cover was modestly lower with treatment, driven largely by decreases in tree sapling cover, but annual and non-native species cover were higher with treatment. Plant community composition was significantly different in treated and untreated plots (perMANOVA; p = 0.006), but communities were highly overlapping. Our results align with research in other western U.S. forests that found a near-term increase in understory diversity following drought-killed dead tree harvest, but future research is needed to identify longer-term patterns. Our project provides essential information to assess whether recovery goals related to understory vegetation are likely to be met under different post-disturbance management scenarios.
https://doi.org/10.5061/dryad.q573n5ttg
Description of the data and file structure
These observational data were collected for the purpose of comparing ecological outcomes in treated and untreated areas after dead tree removal in Sierra Nevada mixed conifer forests. Dead tree removal was conducted in response to severe drought- and bark beetle-induced tree mortality.
Field data were collected in 2020 and 2021 at six sites in the Sierra Nevada, California, USA on the Stanislaus, Sierra, and Sequoia National Forests, the Sequoia National Monument, on private lands owned and managed by Southern California Edison, and at Mountain Home Demonstration State Forest.
Soil lab data were processed at the University of California, Davis, Analytical Laboratory.
Data are observational. Treatments were not implemented experimentally but rather as part of separately planned management actions.
Files and variables
File: DATA_Wayman_and_Sorenson.zip
Description: Contains both the metadata file and the data files.
File: 0_Metadata_Wayman-and-Sorenson.xlsx
Description: Metadata, including short descriptions of each variable. Each tab includes metadata for a single .csv file. Data are provided in separate .csv files.
File: fuel_cwd.csv
Description: Fuel data: coarse woody debris
File: fuel_fine.csv
Description: Fine fuel data: 1-hr, 10-hr, 100-hr, litter, duff, fuel depth
File: plot.csv
Description: Plot level data including location, plot physical characteristics, plant functional group covers, and ground covers.
File: regen_sapling_dbh.csv
Description: Diameter at breast height (DBH) and species of saplings (trees >= 1.37 m tall and < 7.6 cm DBH)
File: regen_sapling_height.csv
Description: Height, length of last year's growth, and species of saplings (trees >= 1.37 m tall and < 7.6 cm DBH)
File: regen_source.csv
Description: Species and distance from plot center of seed source trees (i.e. capable of producing seed) visible from plot
File: regen_seedling.csv
Description: Count by age class and species, plus height and length of last year's growth for tallest individual
File: species.csv
Description: Six letter species name code and percent cover of each understory species; see species_metadata.csv for full species names corresponding to codes
File: species_metadata.csv
Description: Species scientific names plus attributes for each documented plant species
File: trees_dead.csv
Description: Species six letter code, DBH, height, and other attributes of dead trees
File: trees_live.csv
Description: Species six letter code, DBH, height, and other attributes of live trees
File: trees_stump.csv
Description: Species six letter code, diameter, height, and other attributes of tree stumps
File: soil__lab_data.csv
Description: Organic matter and organic C processed at the UC Davis Analytical Laboratory
File: soil__sample_num.csv
Description: Crosswalk from laboratory sample numbers to plot number and soil sample depth
File: soil_litter.csv
Description: Dry weight of litter samples, including bag weights
File: soil_weights.csv
Description: Dry weights of soil samples
NA - Not applicable
Field data were collected in 2020 and 2021 at six sites in the Sierra Nevada, California, USA on the Stanislaus, Sierra, and Sequoia National Forests, the Sequoia National Monument, on private lands owned and managed by Southern California Edison, and at Mountain Home Demonstration State Forest.
Soil lab data were processed at the University of California, Davis, Analytical Laboratory.
Treatment consisted of felling and removal of dead trees via single-tree selection.
Data are observational. Treatments were not implemented experimentally but rather as part of separately planned management actions.