Shrub Growth, NPP, and Nitrogen Assimilation for Two Years in an Alberta Peatland Subjected to Increasing Nitrogen Deposition, 2014-2015

Development of the oil sands has led to increasing atmospheric N deposition, with values as high as 17 kg N ha -1 yr -1 ; regional background levels <2 kg N ha -1 yr -1 . Bogs, being ombrotrophic, may be especially susceptible to increasing N deposition. To examine responses to N deposition, over...

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Bibliographic Details
Main Authors: R Kelman Wieder, Dale H Vitt, Melanie A Vile, Jeremy A Graham, Jeremy A Hartsock, Hope Fillingim, Melissa House, James C Quinn, Kimberli D Scott, Meaghan Petix, Kelly J McMillen
Format: Dataset
Language:unknown
Published: Environmental Data Initiative 2019
Subjects:
Villanova Peatland Biogeochemistry Group
shoot growth
bogs
shrubs
vascular plant
nitrogen
net primary production
growth
Canada
Fort McMurray
Online Access:https://pasta.lternet.edu/package/metadata/eml/edi/369/1
id dataone:https://pasta.lternet.edu/package/metadata/eml/edi/369/1
record_format openpolar
spelling dataone:https://pasta.lternet.edu/package/metadata/eml/edi/369/1 2024-10-03T18:46:05+00:00 Shrub Growth, NPP, and Nitrogen Assimilation for Two Years in an Alberta Peatland Subjected to Increasing Nitrogen Deposition, 2014-2015 R Kelman Wieder Dale H Vitt Melanie A Vile Jeremy A Graham Jeremy A Hartsock Hope Fillingim Melissa House James C Quinn Kimberli D Scott Meaghan Petix Kelly J McMillen Alberta, Canada, 100 km south of Fort McMurray, Canada ENVELOPE(-112.094,-112.094,55.895,55.895) BEGINDATE: 2014-07-01T00:00:00Z ENDDATE: 2015-07-01T00:00:00Z 2019-04-12T00:00:00Z https://pasta.lternet.edu/package/metadata/eml/edi/369/1 unknown Environmental Data Initiative Villanova Peatland Biogeochemistry Group shoot growth bogs shrubs vascular plant nitrogen net primary production growth Dataset 2019 dataone:urn:node:EDI 2024-10-03T18:12:06Z Development of the oil sands has led to increasing atmospheric N deposition, with values as high as 17 kg N ha -1 yr -1 ; regional background levels <2 kg N ha -1 yr -1 . Bogs, being ombrotrophic, may be especially susceptible to increasing N deposition. To examine responses to N deposition, over five years, we experimentally applied N (as NH 4 NO 3 ) to a bog near Mariana Lakes, Alberta, at rates of 0, 5, 10, 15, 20, and 25 kg N ha -1 yr -1 , plus controls (no water or N addition). In July of each year, we collected new growth of the three shrub species, returned them to the lab, and analyzed them. Non-destructive measurement of aboveground NPP for the three dominant shrub species, Andromeda polifolia , Chamaedaphne calyculata , and Rhododendron groenlandicum was based on allometric equations developed. Results for species were varied, however, water addition alone had no significant effect on NPP for any of the species or for the dominant shrubs combined in either 2014 or 2015 (p >= 0.47). The mass of newly produced shoot segments for Chamaedaphne calyculata , Andromeda polifolia , Rhododendron groenlandicum , and these three dominant shrubs combined all increased with increasing N input. As N input increased, the number of newly produced shoots (vegetative buds m -2 ) increased linearly for A. polifolia and the three shrub species combined. The number of newly produced shoots increased up to 16.6 ± 2.5 kg N ha -1 yr -1 and then decreased for C. calyculata and was unaffected for R. groenlandicum . Shrub growth response to increased N could lead to a shading out of the underlayer of mosses changing the bog and potentially compromising its structure and function. Dataset Fort McMurray Environmental Data Initiative (via DataONE) Canada Fort McMurray ENVELOPE(-112.094,-112.094,55.895,55.895)
institution Open Polar
collection Environmental Data Initiative (via DataONE)
op_collection_id dataone:urn:node:EDI
language unknown
topic Villanova Peatland Biogeochemistry Group
shoot growth
bogs
shrubs
vascular plant
nitrogen
net primary production
growth
spellingShingle Villanova Peatland Biogeochemistry Group
shoot growth
bogs
shrubs
vascular plant
nitrogen
net primary production
growth
R Kelman Wieder
Dale H Vitt
Melanie A Vile
Jeremy A Graham
Jeremy A Hartsock
Hope Fillingim
Melissa House
James C Quinn
Kimberli D Scott
Meaghan Petix
Kelly J McMillen
Shrub Growth, NPP, and Nitrogen Assimilation for Two Years in an Alberta Peatland Subjected to Increasing Nitrogen Deposition, 2014-2015
topic_facet Villanova Peatland Biogeochemistry Group
shoot growth
bogs
shrubs
vascular plant
nitrogen
net primary production
growth
description Development of the oil sands has led to increasing atmospheric N deposition, with values as high as 17 kg N ha -1 yr -1 ; regional background levels <2 kg N ha -1 yr -1 . Bogs, being ombrotrophic, may be especially susceptible to increasing N deposition. To examine responses to N deposition, over five years, we experimentally applied N (as NH 4 NO 3 ) to a bog near Mariana Lakes, Alberta, at rates of 0, 5, 10, 15, 20, and 25 kg N ha -1 yr -1 , plus controls (no water or N addition). In July of each year, we collected new growth of the three shrub species, returned them to the lab, and analyzed them. Non-destructive measurement of aboveground NPP for the three dominant shrub species, Andromeda polifolia , Chamaedaphne calyculata , and Rhododendron groenlandicum was based on allometric equations developed. Results for species were varied, however, water addition alone had no significant effect on NPP for any of the species or for the dominant shrubs combined in either 2014 or 2015 (p >= 0.47). The mass of newly produced shoot segments for Chamaedaphne calyculata , Andromeda polifolia , Rhododendron groenlandicum , and these three dominant shrubs combined all increased with increasing N input. As N input increased, the number of newly produced shoots (vegetative buds m -2 ) increased linearly for A. polifolia and the three shrub species combined. The number of newly produced shoots increased up to 16.6 ± 2.5 kg N ha -1 yr -1 and then decreased for C. calyculata and was unaffected for R. groenlandicum . Shrub growth response to increased N could lead to a shading out of the underlayer of mosses changing the bog and potentially compromising its structure and function.
format Dataset
author R Kelman Wieder
Dale H Vitt
Melanie A Vile
Jeremy A Graham
Jeremy A Hartsock
Hope Fillingim
Melissa House
James C Quinn
Kimberli D Scott
Meaghan Petix
Kelly J McMillen
author_facet R Kelman Wieder
Dale H Vitt
Melanie A Vile
Jeremy A Graham
Jeremy A Hartsock
Hope Fillingim
Melissa House
James C Quinn
Kimberli D Scott
Meaghan Petix
Kelly J McMillen
author_sort R Kelman Wieder
title Shrub Growth, NPP, and Nitrogen Assimilation for Two Years in an Alberta Peatland Subjected to Increasing Nitrogen Deposition, 2014-2015
title_short Shrub Growth, NPP, and Nitrogen Assimilation for Two Years in an Alberta Peatland Subjected to Increasing Nitrogen Deposition, 2014-2015
title_full Shrub Growth, NPP, and Nitrogen Assimilation for Two Years in an Alberta Peatland Subjected to Increasing Nitrogen Deposition, 2014-2015
title_fullStr Shrub Growth, NPP, and Nitrogen Assimilation for Two Years in an Alberta Peatland Subjected to Increasing Nitrogen Deposition, 2014-2015
title_full_unstemmed Shrub Growth, NPP, and Nitrogen Assimilation for Two Years in an Alberta Peatland Subjected to Increasing Nitrogen Deposition, 2014-2015
title_sort shrub growth, npp, and nitrogen assimilation for two years in an alberta peatland subjected to increasing nitrogen deposition, 2014-2015
publisher Environmental Data Initiative
publishDate 2019
url https://pasta.lternet.edu/package/metadata/eml/edi/369/1
op_coverage Alberta, Canada, 100 km south of Fort McMurray, Canada
ENVELOPE(-112.094,-112.094,55.895,55.895)
BEGINDATE: 2014-07-01T00:00:00Z ENDDATE: 2015-07-01T00:00:00Z
long_lat ENVELOPE(-112.094,-112.094,55.895,55.895)
geographic Canada
Fort McMurray
geographic_facet Canada
Fort McMurray
genre Fort McMurray
genre_facet Fort McMurray
_version_ 1811924058903674880

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