Effects of Plant Removal on Mineralization Rates at the Rocky Mountain Biological Laboratory, Gunnison County, Colorado: 2018

The loss of aboveground plant diversity alters belowground ecosystem function; yet, the mechanisms underpinning this relationship and the degree to which plant community structure and climate mediate the effects of plant species loss remain unclear. Here, we explored how plant species loss through e...

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Bibliographic Details
Main Authors: Kenna E Rewcastle, Jeremiah A Henning, Quentin D Read, Rebecca E Irwin, Nathan J Sanders, Aimee T Classen
Format: Dataset
Language:unknown
Published: Environmental Data Initiative 2021
Subjects:
Carbon cycling
elevational gradient
plant removal
Rocky Mountain Biological Laboratory
community composition
montane
nitrogen mineralization
plant cover
Agoseris Agoseris aurantiaca
Alopecurus Alopecurus pratensis
Androsace Androsace septentrionalis
Antennaria Antennaria corymbosa
Antennaria Antennaria rosea
Arnica Arnica mollis
Arnica Arnica parryi
Artemisia Artemisia tridentata
Bistorta Bistorta bistortoides
Boechera Boechera stricta
Campanula Campanula rotundifolia
Carex Carex ebenea
Castilleja Castilleja miniata
Castilleja Castilleja sulphurea
Chrysothamnus Chrysothamnus viscidiflorus
Cirsium Cirsium arvense
Collomia Collomia linearis
Draba Draba spectabilis
Elymus Elymus glaucus
Eremogone Eremogone congesta
Erigeron Erigeron flagellaris
Erigeron Erigeron glacialis
Erigeron Erigeron speciosus
Erysimum Erysimum capitatum
Erythronium Erythronium grandiflorum
Festuca Festuca thurberi
Fragaria Fragaria virginiana
Gentiana Gentiana parryi
Geranium Geranium richardsonii
Heliomeris Heliomeris multiflora
Helianthella Helianthella quinquenervis
Heterotheca Heterotheca villosa
Ipomopsis Ipomopsis aggregata
Iris Iris missouriensis
Juncus Juncus drummondii
Ligusticum Ligusticum porteri
Linum Linum lewisii
Linaria Linaria vulgaris
Mertensia Mertensia ciliata
Muhlenbergia Muhlenbergia montana
Noccaea Noccaea fendleri
Osmorhiza Osmorhiza occidentalis
Poa Poa alpina
Poa Poa glauca
Poa Poa pratensis
Poa Poa secunda
Populus Populus tremuloides
Potentilla Potentilla gracilis
Potentilla Potentilla hippiana
Potentilla Potentilla pulcherrima
Pseudocymopterus Pseudocymopterus montanus
Ranunculus Ranunculus inamoenus
Rosa Rosa woodsii
Senecio Senecio crassulus
Sibbaldia Sibbaldia procumbens
Solidago Solidago multiradiata
Symphoricarpos Symphoricarpos rotundifolius
Taraxacum Taraxacum officinale
Thalictrum Thalictrum fendleri
Tragopogon Tragopogon dubius
Trifolium Trifolium repens
Trisetum Trisetum spicatum
Vaccinium Vaccinium myrtillus
Valeriana Valeriana edulis
Valeriana Valeriana occidentalis
Veronica Veronica wormskjoldii
Vicia Vicia americana
Viola Viola labradorica
Agoseris aurantiaca
Alopecurus pratensis
Androsace septentrionalis
Antennaria corymbosa
Antennaria rosea
Arnica mollis
Arnica parryi
Artemisia tridentata
Bistorta bistortoides
Boechera stricta
Bromopsis inermis
Campanula rotundifolia
Carex ebenea
Castilleja miniata
Castilleja sulphurea
Chrysothamnus viscidiflorus
Cirsium arvense
Collomia linearis
Draba spectabilis
Dugaldia hoopesii
Elymus glaucus
Eremogone congesta
Erigeron flagellaris
Erigeron glacialis
Erigeron speciosus
Eriogonum subalpinum
Erysimum capitatum
Erythronium grandiflorum
Festuca thurberi
Fragaria virginiana
Galium boreale
Galium septentrionale
Gentiana parryi
Geranium richardsonii
Heliomeris multiflora
Helianthella quinquenervis
Heterotheca villosa
Ipomopsis aggregata
Iris missouriensis
Juncus drummondii
Lathyrus leucanthus
Ligusticum porteri
Linum lewisii
Linaria vulgaris
Mahonia repens
Mertensia ciliata
Muhlenbergia montana
Noccaea fendleri
Osmorhiza occidentalis
Poa alpina
Poa glauca
Poa pratensis
Poa secunda
Populus tremuloides
Potentilla diversifolia
Potentilla gracilis
Potentilla hippiana
Potentilla pulcherrima
Pseudocymopterus montanus
Ranunculus inamoenus
Rosa woodsii
Senecio crassulus
Sibbaldia procumbens
Solidago multiradiata
Symphoricarpos rotundifolius
Taraxacum officinale
Thalictrum fendleri
Tragopogon dubius
Trifolium repens
Trisetum spicatum
Vaccinium caespitosum
Vaccinium myrtillus
Valeriana edulis
Valeriana occidentalis
Veronica wormskjoldii
Vicia americana
Viola labradorica
Online Access:https://pasta.lternet.edu/package/metadata/eml/edi/866/1
Description
Summary:The loss of aboveground plant diversity alters belowground ecosystem function; yet, the mechanisms underpinning this relationship and the degree to which plant community structure and climate mediate the effects of plant species loss remain unclear. Here, we explored how plant species loss through experimental removal shaped belowground function in ecosystems characterized by different climatic regimes and edaphic properties. We measured plant community composition as well as potential carbon (C) and nitrogen (N) mineralization through laboratory soil incubations and microbial extracellular enzyme activity in soils collected from four unique plant removal experiments located along an elevational gradient in Colorado, USA, during the summer of 2018. We found that regardless of the identity of the removed species or the climate at each site plant removal decreased the absolute variation in potential N-mineralization rates and marginally reduced the magnitude of N-mineralization rates. While plant species removal also marginally reduced C-mineralization rates, C-mineralization, unlike N-mineralization, displayed sensitivity to the climatic and edaphic differences among sites, where C-mineralization was greatest at the high elevation site that receives the most precipitation annually and contains the largest soil total C pools. Plant removal had little impact on soil enzyme activity. Removal effects were not contingent on the amount of biomass removed annually, and shifts in mineralization rates occurred despite only marginal shifts in plant community structure following plant species removal. Our results present a surprisingly simple and consistent pattern of belowground response to the loss of dominant plant species across an elevational gradient with different climatic and edaphic properties, suggesting a common response of belowground ecosystem function to plant species loss regardless of which plant species are lost or the broader climatic context.

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