EcoService Models Library (ESML)

Compare EMs

EM Variables by Variable Role

One quick way to compare ecological models (EMs) is by comparing their variables. Predictor variables show what kinds of influences a model is able to account for, and what kinds of data it requires. Response variables show what information a model is capable of estimating.

This first comparison shows the names (and units) of each EM’s variables, side-by-side, sorted by variable role. Variable roles in ESML are as follows:

Predictor Variables
- Time- or Space-Varying Variables
- Constants and Parameters
Intermediate (Computed) Variables
Response Variables
- Computed Response Variables
- Measured Response Variables

EM Variables by Category

A second way to use variables to compare EMs is by focusing on the kind of information each variable represents. The top-level categories in the ESML Variable Classification Hierarchy are as follows:

Policy Regarding Use or Management of Ecosystem Resources
Land Surface (or Water Body Bed) Cover, Use or Substrate
Human Demographic Data
Human-Produced Stressor or Enhancer of Ecosystem Goods and Services Production
Ecosystem Attributes and Potential Supply of Ecosystem Goods and Services
Non-monetary Indicators of Human Demand, Use or Benefit of Ecosystem Goods and Services
Monetary Values

Besides understanding model similarities, sorting the variables for each EM by these 7 categories makes it easier to see if the compared models can be linked using similar variables. For example, if one model estimates an ecosystem attribute (in Category 5), such as water clarity, as a response variable, and a second model uses a similar attribute (also in Category 5) as a predictor of recreational use, the two models can potentially be used in tandem. This comparison makes it easier to spot potential model linkages.

All EM Descriptors

This selection allows a more detailed comparison of EMs by model characteristics other than their variables. The 50-or-so EM descriptors for each model are presented, side-by-side, in the following categories:

EM Identity and Description
EM Modeling Approach
EM Locations, Environments, Ecology
EM Ecosystem Goods and Services (EGS) potentially modeled, by classification system

EM Descriptors by Modeling Concepts

This feature guides the user through the use of the following seven concepts for comparing and selecting EMs:

Conceptual Model
Modeling Objective
Modeling Context
Potential for Model Linkage
Feasibility of Model Use
Model Certainty
Model Structural Information

Though presented separately, these concepts are interdependent, and information presented under one concept may have relevance to other concepts as well.

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Comparing:

EM-584
EM-788

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EM Identity and Description

EM Identification

EM ID em.detail.idHelp ?	EM-584	EM-788
EM Short Name em.detail.shortNameHelp ?	Nutrient Tracking Tool (NTT), north central Texas, USA	Wild bees over 26 yrs of restored prairie, IL, USA
EM Full Name em.detail.fullNameHelp ?	Nutrient Tracking Tool (NTT), Upper North Bosque River watershed, Texas, USA	Wild bee community change over a 26 year chronosequence of restored tallgrass prairie, IL, USA
EM Source or Collection em.detail.emSourceOrCollectionHelp ?	None	None
EM Source Document ID	354	401
Document Author em.detail.documentAuthorHelp ?	Saleh, A., O. Gallego, E. Osei, H. Lal, C. Gross, S. McKinney, and H. Cover	Griffin, S. R, B. Bruninga-Socolar, M. A. Kerr, J. Gibbs and R. Winfree
Document Year em.detail.documentYearHelp ?	2011	2017
Document Title em.detail.sourceIdHelp ?	Nutrient Tracking Tool - a user-friendly tool for calculating nutrient reductions for water quality trading	Wild bee community change over a 26-year chronosequence of restored tallgrass prairie
Document Status em.detail.statusCategoryHelp ?	Peer reviewed and published	Peer reviewed and published
Comments on Status em.detail.commentsOnStatusHelp ?	Published journal manuscript	Published journal manuscript

Software and Access

EM ID em.detail.idHelp ?	EM-584	EM-788
EM Software Access info Exit em.detail.modelAccessInformationHelp ?	http://ntt.tiaer.tarleton.edu/welcomes/new?locale=en	Not applicable
Contact Name em.detail.contactNameHelp ?	Ali Saleh	Sean R. Griffin
Contact Address	Texas Institute for Applied Environmental Research-Tarleton State University, Stephenville, TX 76401,USA	Department of Ecology, Evolution, and Natural Resources, Rutgers University, New Brunswick, NJ 08901, U.S.A.
Contact Email	saleh@tiaer.tarleton.edu	srgriffin108@gmail.com

EM Description

EM ID em.detail.idHelp ?	EM-584	EM-788
Summary Description em.detail.summaryDescriptionHelp ?	ABSTRACT: "The Nutrient Tracking Tool (NTrT) is an enhanced version of the Nitrogen Trading Tool, a user-friendly Web-based computer program originally developed by the USDA. The NTrT estimates nutrient (nitrogen and phosphorus) and sediment losses from fields managed under a variety of cropping patterns and management practices through its user-friendly, Web-based linkage to the Agricultural Policy Environmental eXtender (APEX) model. It also accesses the USDA Natural Resources Conservation Service’s Web Soil Survey to utilize their geographic information system interface for field and operation identification and load soil information. The NTrT provides farmers, government officials, and other users with a fast and efficient method of estimating nitrogen and phosphorus credits for water quality trading, as well as other water quality, water quantity, and farm production impacts associated with conservation practices. The information obtained from the tool can help farmers determine the most cost-effective conservation practice alternatives for their individual operations and provide them with more advantageous options in a water quality credit trading program. An application of the NTrT to evaluate conservation practices on fields receiving dairy manure in a north central Texas watershed indicates that phosphorus-based application rates, filter strips, forest buffers, and complete manure export off the farm all result in reduced phosphorus losses from the fields on which those practices were implemented. When compared to a base¬line condition that entailed manure application at the nitrogen agronomic rate of receiving crops, the reductions in total phosphorus losses associated with these practices ranged from 15% (2P Rate scenario) to 76% (forest buffer scenario)." AUTHOR'S DESCRIPTION: "This paper provides a brief overview of the NTrT and presents results of verification and application of the tool on a selected field on a test field in the Upper North Bosque River (UNBR) watershed in Texas…simulations for the baseline and all five alternative scenarios were replicated for each of 90 specific soil types in Erath County, Texas…results reported and discussed in this report represent the averages of the output for all soil types."	ABSTRACT: "Restoration efforts often focus on plants, but additionally require the establishment and long-term persistence of diverse groups of nontarget organisms, such as bees, for important ecosystem functions and meeting restoration goals. We investigated long-term patterns in the response of bees to habitat restoration by sampling bee communities along a 26-year chronosequence of restored tallgrass prairie in north-central Illinois, U.S.A. Specifically, we examined how bee communities changed over time since restoration in terms of (1) abundance and richness, (2) community composition, and (3) the two components of beta diversity, one-to-one species replacement, and changes in species richness. Bee abundance and raw richness increased with restoration age from the low level of the pre-restoration (agricultural) sites to the target level of the remnant prairie within the first 2–3 years after restoration, and these high levels were maintained throughout the entire restoration chronosequence. Bee community composition of the youngest restored sites differed from that of prairie remnants, but 5–7 years post-restoration the community composition of restored prairie converged with that of remnants. Landscape context, particularly nearby wooded land, was found to affect abundance, rarefied richness, and community composition. Partitioning overall beta diversity between sites into species replacement and richness effects revealed that the main driver of community change over time was the gradual accumulation of species, rather than one-to-one species replacement. At the spatial and temporal scales we studied, we conclude that prairie restoration efforts targeting plants also successfully restore bee communities."
Specific Policy or Decision Context Cited em.detail.policyDecisionContextHelp ?	None identified	None identified
Biophysical Context	The UNBR watershed is comprised primarily of two main physiographic areas, the West Cross Timbers and the Grand Prairie Land Resource Areas. In the West Cross Timbers, soils are primarily fine sandy loams with sandy clay subsoils. Soils in the Grand Prairie area, on the other hand, are typically calcareous clays and clay loams (Ward et al. 1992).	The Nachusa Grasslands consists of over 1,900 ha of restored prairie plantings, prairie remnants, and other habitats such as wetlands and oak savanna. The area is generally mesic with an average annual precipitation of 975 mm, and most precipitation occurs during the growing season.
EM Scenario Drivers em.detail.scenarioDriverHelp ?	Conservation management strategies to reduce phosphorus losses	No scenarios presented

EM Relationship to Other EMs or Applications

EM ID em.detail.idHelp ?	EM-584	EM-788
Method Only, Application of Method or Model Run em.detail.methodOrAppHelp ?	Method + Application (multiple runs exist) View EM Runs	Method + Application (multiple runs exist) View EM Runs
New or Pre-existing EM? em.detail.newOrExistHelp ?	New or revised model	New or revised model

Related EMs (for example, other versions or derivations of this EM) described in ESML

EM ID em.detail.idHelp ?	EM-584	EM-788
Document ID for related EM em.detail.relatedEmDocumentIdHelp ?	Doc-352	None
EM ID for related EM em.detail.relatedEmEmIdHelp ?	EM-549	None

EM Modeling Approach

EM Relationship to Time

EM ID em.detail.idHelp ?	EM-584	EM-788
EM Temporal Extent em.detail.tempExtentHelp ?	1960-2001	1988-2014
EM Time Dependence em.detail.timeDependencyHelp ?	time-dependent	time-stationary
EM Time Reference (Future/Past) em.detail.futurePastHelp ?	future time	Not applicable
EM Time Continuity em.detail.continueDiscreteHelp ?	discrete	Not applicable
EM Temporal Grain Size Value em.detail.tempGrainSizeHelp ?	1	Not applicable
EM Temporal Grain Size Unit em.detail.tempGrainSizeUnitHelp ?	Day	Not applicable

EM Spatial Extent

EM ID em.detail.idHelp ?	EM-584	EM-788
Bounding Type em.detail.boundingTypeHelp ?	Watershed/Catchment/HUC	Physiographic or ecological
Spatial Extent Name em.detail.extentNameHelp ?	Upper North Bosque River watershed	Nachusa Grasslands
Spatial Extent Area (Magnitude) em.detail.extentAreaHelp ?	100-1000 km^2	10-100 km^2

Spatial Distribution of Computations

EM ID em.detail.idHelp ?	EM-584	EM-788
EM Spatial Distribution em.detail.distributeLumpHelp ?	spatially lumped (in all cases)	spatially distributed (in at least some cases)
Spatial Grain Type em.detail.spGrainTypeHelp ?	Not applicable	other (specify), for irregular (e.g., stream reach, lake basin)
Spatial Grain Size em.detail.spGrainSizeHelp ?	Not applicable	Area varies by site

EM Structure and Computation Approach

EM ID em.detail.idHelp ?	EM-584	EM-788
EM Computational Approach em.detail.emComputationalApproachHelp ?	Numeric	Analytic
EM Determinism em.detail.deterStochHelp ?	deterministic	deterministic
Statistical Estimation of EM em.detail.statisticalEstimationHelp ?	Conventional (frequentist) statistics	Conventional (frequentist) statistics

Model Checking Procedures Used

EM ID em.detail.idHelp ?	EM-584	EM-788
Model Calibration Reported? em.detail.calibrationHelp ?	Yes	No
Model Goodness of Fit Reported? em.detail.goodnessFitHelp ?	No	No
Goodness of Fit (metric\| value \| unit) em.detail.goodnessFitValuesHelp ?	None	None
Model Operational Validation Reported? em.detail.validationHelp ?	No	No
Model Uncertainty Analysis Reported? em.detail.uncertaintyAnalysisHelp ?	No	No
Model Sensitivity Analysis Reported? em.detail.sensAnalysisHelp ?	No	No
Model Sensitivity Analysis Include Interactions? em.detail.interactionConsiderHelp ?	Not applicable	Not applicable

EM Locations, Environments, Ecology

Location of EM Application

Terrestrial location (Classification hierarchy: Continent > Country > U.S. State [United States only])

EM-584	EM-788
North America United States Texas	North America United States Illinois

Marine location (Classification hierarchy: Realm > Region > Province > Ecoregion)

EM-584	EM-788
None	None

Centroid Lat/Long (Decimal Degree)

EM ID em.detail.idHelp ?	EM-584	EM-788
Centroid Latitude em.detail.ddLatHelp ?	32.09	41.89
Centroid Longitude em.detail.ddLongHelp ?	-98.12	-89.34
Centroid Datum em.detail.datumHelp ?	WGS84	WGS84
Centroid Coordinates Status em.detail.coordinateStatusHelp ?	Estimated	Provided

Environments and Scales Modeled

EM ID em.detail.idHelp ?	EM-584	EM-788
EM Environmental Sub-Class em.detail.emEnvironmentalSubclassHelp ?	Agroecosystems	Agroecosystems \| Grasslands
Specific Environment Type em.detail.specificEnvTypeHelp ?	Rangeland and forage fields for dairy	Restored prairie, prairie remnants, and cropland
EM Ecological Scale em.detail.ecoScaleHelp ?	Ecological scale corresponds to the Environmental Sub-class	Ecological scale corresponds to the Environmental Sub-class

Scale and taxa of organisms modeled

Scale of differentiation of organisms modeled

EM ID em.detail.idHelp ?	EM-584	EM-788
EM Organismal Scale em.detail.orgScaleHelp ?	Not applicable	Species

Taxonomic level and name of organisms or groups identified

EM-584	EM-788
None Available	other Bees

EnviroAtlas URL

EM-584	EM-788
GAP Ecological Systems, Agricultural water use (million gallons/day), The Watershed Boundary Dataset (WBD)	GAP Ecological Systems

EM Ecosystem Goods and Services (EGS) potentially modeled, by classification system

CICES v 4.3 - Common International Classification of Ecosystem Services (Section > Division > Group > Class)

EM-584

EM-788

[Ecosystem] Provisioning
- Materials
  - Biomass
    - Materials from plants, algae and animals for agricultural use
[Ecosystem] Regulation & Maintenance
- Mediation of flows
  - Liquid flows
    - Hydrological cycle and water flow maintenance
  - Mass flows
    - Mass stabilisation and control of erosion rates
- Mediation of waste, toxics and other nuisances
  - Mediation by ecosystems
    - Filtration/sequestration/storage/accumulation by ecosystems

[Ecosystem] Regulation & Maintenance
- Maintenance of physical, chemical, biological conditions
  - Lifecycle maintenance, habitat and gene pool protection
    - Maintaining nursery populations and habitats
    - Pollination and seed dispersal

<a target="_blank" rel="noopener noreferrer" href="https://www.epa.gov/eco-research/national-ecosystem-services-classification-system-nescs-plus">National Ecosystem Services Classification System (NESCS) Plus</a>

(Environmental Subclass > Ecological End-Product (EEP) > EEP Subclass > EEP Modifier)

EM-584	EM-788
Agroecosystems (22) Flora (5) Fodder Stock Indicator	None