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Net N mineralization rates in peat from N-Addition plots in an Alberta Peatland, 2011-2014

General Information
Data Package:
Local Identifier:edi.147.2
Title:Net N mineralization rates in peat from N-Addition plots in an Alberta Peatland, 2011-2014
Alternate Identifier:DOI PLACE HOLDER
Abstract:

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 NH4NO3) 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). From 2011 through 2014, we quantified net N mineralization in each plot using the in situ buried polyethylene bag technique. Concentrations of initial KCl-extractable NH4 +-N, NO3 --N, and DIN in the top 10 cm of peat were unaffected by N inputs. We hypothesized that as N deposition increases to a level that exceeds the capacity of the bog vegetation to take up N, net N mineralization in surface peat would be inhibited by higher NH4 +-N availability, net nitrification would be stimulated by higher NH4 +-N availability (cf. McGill and Cole 1981, Robertson and Groffman 2015), and concentrations of DIN in porewater at the top of the water table would increase, as DIN bypasses interception by the ground layer vegetation. None of these hypotheses was supported. Experimentally added NH4 +-N and NO3 --N apparently appear to be rapidly immobilized. This immobilization prevents experimentally added DIN from moving downward through the peat to the bog water table.

Publication Date:2019-01-08

Time Period
Begin:
2011-06-01
End:
2014-07-01

People and Organizations
Contact:Wieder, Kelman R (Villanova University) [  email ]
Creator:Wieder, Kelman R (Villanova University)
Creator:Vitt, Dale H (Southern Illinois University)
Creator:Vile, Melanie A (Villanova University)
Creator:Graham, Jeremy A (Southern Illinois University)
Creator:Hartsock, Jeremy A (Southern Illinois University)
Creator:Fillingim, Hope (Villanova University)
Creator:House, Melissa (Southern Illinois University)
Creator:Quinn, James C (Villanova University)
Creator:Scott, Kimberli D (Villanova University)
Creator:Petix, Meaghan (Southern Illinois University)
Creator:McMillen, Kelly J (Villanova University)

Data Entities
Data Table Name:
Net_N_mineralization.csv
Description:
Net N Mineralization Data
Detailed Metadata

Data Entities


Data Table

Data:https://pasta-s.lternet.edu/package/data/eml/edi/147/2/4b4efe595e1bc2659ba28c42e58ce5b0
Name:Net_N_mineralization.csv
Description:Net N Mineralization Data
Number of Records:84
Number of Columns:14

Table Structure
Object Name:Net_N_mineralization.csv
Size:6446 byte
Authentication:2cc844a05cc7c1a66f9de48edfde9310 Calculated By MD5
Text Format:
Number of Header Lines:1
Record Delimiter:\r
Orientation:column
Simple Delimited:
Field Delimiter:,

Table Column Descriptions
 
Column Name:YEAR  
NTRT  
ARM  
INITIAL_NH4_N  
INITIAL_NO3__N  
INITIAL_NH4_N_IN_TOP_10_cm_OF_PEAT  
INITIAL_NO3_N_IN_TOP_10_cm_OF_PEAT  
INITIAL_DIN_IN_TOP_10_cm_OF_PEAT  
NET_AMMONIFICATION  
NET_NITRIFICATION  
NET_DIN_PRODUCTION  
NET_AMMONIFICATION_IN_TOP_10_cm_OF_PEAT  
NET_NITRIFICATION_IN_TOP_10_cm_OF_PEAT  
NET_DIN_PRODUCTION_IN_TOP_10_cm_OF_PEAT  
Definition:Year of Sampling: 2011-2015Field experimental N treatments were made with 8 applications per plot per year between mid-May and mid-August of each yearExperimental plots were located along 3 arms; each arm had one replicate each of 8 N treatmentsConcentration of ammonium measured in the initial sample on a dry mass basisConcentration of nitrate measured in the initial sample on a dry mass basisConcentration of ammonium measured in the top 10 cm of sample per meter squaredConcentration of nitrate measured in the top 10 cm of sample per meter squaredInitial concentrations of nitrate and ammonium in the top 10 cm of peat per meter squaredNet ammonification calculated as the difference between final and initial extractable NH4+-N per dry massNet nitrification calculated as the difference between final and initial extractable NO3--N per dry massNet dissolved inorganic nitrogen production calculated as the sum of nitrate and ammonium differences from final and initial as expressed as per gram of dry mass per dayNet ammonification calculated as the difference between final and initial extractable NH4+-N per meter squared per dayNet nitrification calculated as the difference between final and initial extractable NO3--N per meter squared per dayNet dissolved inorganic nitrogen production calculated as the sum of nitrate and ammonium differences from final and initial as expressed as per meter squared per day
Storage Type:date  
string  
string  
float  
float  
float  
float  
float  
float  
float  
float  
float  
float  
float  
Measurement Type:dateTimenominalnominalratioratioratioratioratioratioratioratioratioratioratio
Measurement Values Domain:
FormatYYYY
Precision
Allowed Values and Definitions
Enumerated Domain 
Code Definition
CodeC
DefinitionControl, no water, no N added
Source
Code Definition
Code0
Definition0 kg N/ha/yr added as NH4NO3
Source
Code Definition
Code5
Definition5 kg N/ha/yr added as NH4NO3
Source
Code Definition
Code10
Definition10 kg N/ha/yr added as NH4NO3
Source
Code Definition
Code15
Definition15 kg N/ha/yr added as NH4NO3
Source
Code Definition
Code20
Definition20 kg N/ha/yr added as NH4NO3
Source
Code Definition
Code25
Definition25 kg N/ha/yr added as NH4NO3
Source
Allowed Values and Definitions
Enumerated Domain 
Code Definition
Code1
DefinitionArm 1
Source
Code Definition
Code2
DefinitionArm 2
Source
Code Definition
Code3
DefinitionArm 3
Source
UnitmicrogramsPerGram
Typereal
Min4.19 
Max67.82 
UnitmicrogramsPerGram
Typereal
Min1.63 
Max28.78 
UnitmilligramsPerSquareMeter
Typereal
Min9.39 
Max107.84 
UnitmilligramsPerSquareMeter
Typereal
Min3.28 
Max31.55 
UnitmilligramsPerSquareMeter
Typereal
Min13.23 
Max133.47 
UnitmicrogramsPerGramPerDay
Typereal
Min-1668.1 
Max1866.6 
UnitmicrogramsPerGramPerDay
Typereal
Min-401.6 
Max552.9 
UnitmicrogramsPerGramPerDay
Typereal
Min-2069.7 
Max2419.5 
UnitmicrogramsPerMeterSquaredPerDay
Typereal
Min-1844.8 
Max2338.7 
UnitmicrogramsPerMeterSquaredPerDay
Typereal
Min-774.4 
Max692.7 
UnitmicrogramsPerMeterSquaredPerDay
Typereal
Min-2288.9 
Max3031.4 
Missing Value Code:
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Code-99999
ExplMissing value
Accuracy Report:                            
Accuracy Assessment:                            
Coverage:                            
Methods:                            

Data Package Usage Rights

This data package is released to the “public domain” under Creative Commons CC0 1.0 “No Rights Reserved” (see: https://creativecommons.org/publicdomain/zero/1.0/). It is considered professional etiquette to provide attribution of the original work if this data package is shared in whole or by individual components. A generic citation is provided for this data package on the website https://portal.edirepository.org (herein “website”) in the summary metadata page. Communication (and collaboration) with the creators of this data package is recommended to prevent duplicate research or publication. This data package (and its components) is made available “as is” and with no warranty of accuracy or fitness for use. The creators of this data package and the website shall not be liable for any damages resulting from misinterpretation or misuse of the data package or its components. Periodic updates of this data package may be available from the website. Thank you.

Keywords

By Thesaurus:
(No thesaurus)Villanova Peatland Biogeochemistry Group, bog, peat, mineralization, ammonification, nitrification, nitrogen, inorganic nitrogen, ammonium, nitrate

Methods and Protocols

These methods, instrumentation and/or protocols apply to all data in this dataset:

Methods and protocols used in the collection of this data package
Description:

From 2011 through 2014, we quantified net N mineralization in each plot using the in situ buried polyethylene bag technique (Robertson et al. 1999; Bayley et al. 2005). In the last week of June of each year, we collected peat cores (6.5 cm diam., 10 cm deep), halved them longitudinally with a serrated bread knife, and placed them into separate polyethylene Whirl Pak bags (initial N core and final N core), removing any live aboveground vascular vegetation from each peat core prior to placement into Whirl Pak bags. Immediately after collection from the field, we extracted initial N cores (60 min per extraction) with 0.2 M KCl to displace NH4 +-N and NO3 --N (modified from Verhoeven et al. 1990). We buried final N cores in the peat profile from the same location from which they were removed and incubated in the peat matrix for approximately 30 days. Following the field incubation period, we extracted final N cores with 0.2 M KCl.

For 2011-2012 samples, we measured extractable NH4 +-N and NO3 --N concentrations on a Seal AA3 Autoanalyzer using phenate and hydrazine reduction methods, respectively; for 2013-2014 samples, we measured extractable NH4 +-N and NO3 --N concentrations on an OI Analytical Flow Solution IV instrument using the alkaline phenol and cadmium reduction methods, respectively. We calculated net ammonification from the difference between final and initial extractable NH4 +-N contents, net nitrification from the difference between final and initial extractable NO3 --N contents, and net N mineralization from the difference between final and initial extractable NH4 +-N plus NO3 --N contents.

People and Organizations

Creators:
Individual: Kelman R Wieder
Organization:Villanova University
Email Address:
kelman.wieder@villanova.edu
Id:https://orcid.org/0000-0001-5856-8473
Individual: Dale H Vitt
Organization:Southern Illinois University
Individual: Melanie A Vile
Organization:Villanova University
Email Address:
mvile@villanova.edu
Individual: Jeremy A Graham
Organization:Southern Illinois University
Email Address:
jeremyg@mtu.edu
Individual: Jeremy A Hartsock
Organization:Southern Illinois University
Email Address:
hartsock@siu.edu
Individual: Hope Fillingim
Organization:Villanova University
Email Address:
fillingimhope@gmail.com
Individual: Melissa House
Organization:Southern Illinois University
Email Address:
mhouse@siu.edu
Individual: James C Quinn
Organization:Villanova University
Email Address:
jcqui03@gmail.com
Individual: Kimberli D Scott
Organization:Villanova University
Email Address:
kscott@villanova.edu
Individual: Meaghan Petix
Organization:Southern Illinois University
Email Address:
meaghan.petix@wsu.edu
Individual: Kelly J McMillen
Organization:Villanova University
Email Address:
Kelly.Mcmillen@ttu.edu
Contacts:
Individual: Kelman R Wieder
Organization:Villanova University
Email Address:
kelman.wieder@villanova.edu
Id:https://orcid.org/0000-0001-5856-8473

Temporal, Geographic and Taxonomic Coverage

Temporal, Geographic and/or Taxonomic information that applies to all data in this dataset:

Time Period
Begin:
2011-06-01
End:
2014-07-01
Sampling Site: 
Description:Alberta, Canada, 100 km south of Fort McMurray, Canada
Site Coordinates:
Longitude (degree): -112.094Latitude (degree): 55.895

Project

Parent Project Information:

Title:Nitrogen Addition Experiments in Boreal Ecosystems: Understanding the Fate of Atmospherically Deposited Nitrogen in order to Determine Nitrogen Critical Loads
Personnel:
Individual: Kelman Wieder
Email Address:
kelman.wieder@villanova.edu
Id:https://orcid.org/0000-0001-5856-8473
Role:Principal Investigator
Funding: Cumulative Environmental Management Association (CEMA): 2011-0003

Maintenance

Maintenance:
Description:completed
Frequency:
Other Metadata

Additional Metadata

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