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Satisfaction, water and fertilizer use in the American residential macrosystem (2016)

Groffman, Peter M. ; Grove, J. Morgan ; Polsky, Colin ; [et al.]

IOPScience

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Publication Date: 2022-05-25

Description: © The Author(s), 2016. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Environmental Research Letters 11 (2016): 034004, doi:10.1088/1748-9326/11/3/034004.

Description: Residential yards across the US look remarkably similar despite marked variation in climate and soil, yet the drivers of this homogenization are unknown. Telephone surveys of fertilizer and irrigation use and satisfaction with the natural environment, and measurements of inherent water and nitrogen availability in six US cities (Boston, Baltimore, Miami, Minneapolis-St. Paul, Phoenix, Los Angeles) showed that the percentage of people using irrigation at least once in a year was relatively invariant with little difference between the wettest (Miami, 85%) and driest (Phoenix, 89%) cities. The percentage of people using fertilizer at least once in a year also ranged narrowly (52%–71%), while soil nitrogen supply varied by 10x. Residents expressed similar levels of satisfaction with the natural environment in their neighborhoods. The nature and extent of this satisfaction must be understood if environmental managers hope to effect change in the establishment and maintenance of residential ecosystems.

Description: We would like to acknowledge the MacroSystems Biology Program, in the Emerging Frontiers Division of the Biological Sciences Directorate at NSF for support. The 'Ecological Homogenization of Urban America' project was supported by a series of collaborative grants from this program (EF-1065548, 1065737, 1065740, 1065741, 1065772, 1065785, 1065831, 121238320). The work arose from research funded by grants from the NSF Long Term Ecological Research Program supporting work in Baltimore (DEB-0423476), Phoenix (BCS-1026865, DEB-0423704 and DEB-9714833), Plum Island (Boston) (OCE-1058747 and 1238212), Cedar Creek (Minneapolis-St. Paul) (DEB-0620652) and Florida Coastal Everglades (Miami) (DBI-0620409).

Repository Name: Woods Hole Open Access Server

Type: Article

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Continental-scale homogenization of residential lawn plant communities (2017)

Wheeler, Megan M. ; Neill, Christopher ; Groffman, Peter M. ; [et al.]

Elsevier

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Publication Date: 2022-05-25

Description: © The Author(s), 2017. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Landscape and Urban Planning 165 (2017): 54-63, doi:10.1016/j.landurbplan.2017.05.004.

Description: Residential lawns are highly managed ecosystems that occur in urbanized landscapes across the United States. Because they are ubiquitous, lawns are good systems in which to study the potential homogenizing effects of urban land use and management together with the continental-scale effects of climate on ecosystem structure and functioning. We hypothesized that similar homeowner preferences and management in residential areas across the United States would lead to low plant species diversity in lawns and relatively homogeneous vegetation across broad geographical regions. We also hypothesized that lawn plant species richness would increase with regional temperature and precipitation due to the presence of spontaneous, weedy vegetation, but would decrease with household income and fertilizer use. To test these predictions, we compared plant species composition and richness in residential lawns in seven U.S. metropolitan regions. We also compared species composition in lawns with understory vegetation in minimally-managed reference areas in each city. As expected, the composition of cultivated turfgrasses was more similar among lawns than among reference areas, but this pattern also held among spontaneous species. Plant species richness and diversity varied more among lawns than among reference areas, and more diverse lawns occurred in metropolitan areas with higher precipitation. Native forb diversity increased with precipitation and decreased with income, driving overall lawn diversity trends with these predictors as well. Our results showed that both management and regional climate shaped lawn species composition, but the overall homogeneity of species regardless of regional context strongly suggested that management was a more important driver.

Description: This research was supported by the Macrosystems Biology Program in the Emerging Frontiers Division of the Biological Sciences Directorate at the National Science Foundation (NSF) under grants EF-1065548, 1065737, 1065740, 1065741, 1065772, 1065785, 1065831, and 121238320.

Keywords: Homogenization ; Lawn ; Residential yards ; Species composition ; Turfgrass

Repository Name: Woods Hole Open Access Server

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Ecological homogenization of urban USA (2014)

Groffman, Peter M. ; Cavender-Bares, Jeannine ; Bettez, Neil D. ; [et al.]

Ecological Society of America

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Publication Date: 2022-05-26

Description: Author Posting. © Ecological Society of America, 2014. This article is posted here by permission of Ecological Society of America for personal use, not for redistribution. The definitive version was published in Frontiers in Ecology and the Environment 12 (2014): 74-81, doi:10.1890/120374.

Description: A visually apparent but scientifically untested outcome of land-use change is homogenization across urban areas, where neighborhoods in different parts of the country have similar patterns of roads, residential lots, commercial areas, and aquatic features. We hypothesize that this homogenization extends to ecological structure and also to ecosystem functions such as carbon dynamics and microclimate, with continental-scale implications. Further, we suggest that understanding urban homogenization will provide the basis for understanding the impacts of urban land-use change from local to continental scales. Here, we show how multi-scale, multi-disciplinary datasets from six metropolitan areas that cover the major climatic regions of the US (Phoenix, AZ; Miami, FL; Baltimore, MD; Boston, MA; Minneapolis–St Paul, MN; and Los Angeles, CA) can be used to determine how household and neighborhood characteristics correlate with land-management practices, land-cover composition, and landscape structure and ecosystem functions at local, regional, and continental scales.

Description: We thank the MacroSystems Biology Program in the Emerging Frontiers Division of the Biological Sciences Directorate at NSF for support. The “Ecological Homogenization of Urban America” project was supported by a series of collaborative grants from this program (EF-1065548, 1065737, 1065740, 1065741, 1065772, 1065785, 1065831, 121238320). The work arose from research funded by grants from the NSF Long Term Ecological Research Program supporting work in Baltimore (DEB-0423476), Phoenix (BCS-1026865, DEB-0423704 and DEB-9714833), Plum Island (Boston) (OCE-1058747 and 1238212), Cedar Creek (Minneapolis–St Paul) (DEB-0620652), and Florida Coastal Everglades (Miami) (DBI-0620409).

Repository Name: Woods Hole Open Access Server

Type: Article

Format: application/pdf

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Homogenization of plant diversity, composition, and structure in North American urban yards (2018)

Pearse, William D. ; Cavender-Bares, Jeannine ; Hobbie, Sarah E. ; [et al.]

John Wiley & Sons

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Publication Date: 2022-05-26

Description: © The Author(s), 2018. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Ecosphere 9 (2018): e02105, doi:10.1002/ecs2.2105.

Description: Urban ecosystems are widely hypothesized to be more ecologically homogeneous than natural ecosystems. We argue that urban plant communities assemble from a complex mix of horticultural and regional species pools, and evaluate the homogenization hypothesis by comparing cultivated and spontaneously occurring urban vegetation to natural area vegetation across seven major U.S. cities. There was limited support for homogenization of urban diversity, as the cultivated and spontaneous yard flora had greater numbers of species than natural areas, and cultivated phylogenetic diversity was also greater. However, urban yards showed evidence of homogenization of composition and structure. Yards were compositionally more similar across regions than were natural areas, and tree density was less variable in yards than in comparable natural areas. This homogenization of biodiversity likely reflects similar horticultural source pools, homeowner preferences, and management practices across U.S. cities.

Description: National Science Foundation Macrosystems Biology Program in the Emerging Frontiers Division of the Biological Sciences Directorate and Long Term Ecological Research Program. Grant Numbers: EF‐1065548, 1065737, 1065740, 1065741, 1065772, 1065785, 1065831, 121238320, DEB‐0423476, BCS‐1026865, DEB‐0423704, DEB‐9714833, OCE‐1058747, OCE‐1238212, DEB‐0620652, DBI‐0620409

Keywords: Aridity ; Ecosystems services ; Functional traits ; Phylogenetic diversity ; Plants ; Urban ecology

Repository Name: Woods Hole Open Access Server

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Climate and lawn management interact to control C4 plant distribution in residential lawns across seven U.S. cities. (2019)

Trammell, Tara ; Pataki, Diane E. ; Still, Christopher J. ; [et al.]

Ecological Society of America

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Publication Date: 2022-05-26

Description: Author Posting. © Ecological Society of America, 2019. This article is posted here by permission of Ecological Society of America for personal use, not for redistribution. The definitive version was published in Trammell, T. L. E., Pataki, D. E., Still, C. J., Ehleringer, J. R., Avolio, M. L., Bettez, N., Cavender-Bares, J., Groffman, P. M., Grove, M., Hall, S. J., Heffernan, J., Hobbie, S. E., Larson, K. L., Morse, J. L., Neill, C., Nelson, K. C., O'Neil-Dunne, J., Pearse, W. D., Chowdhury, R. R., Steele, M., & Wheeler, M. M. Climate and lawn management interact to control C4 plant distribution in residential lawns across seven U.S. cities. Ecological Applications, 29(4), (2019): e01884, doi: 10.1002/eap.1884.

Description: In natural grasslands, C4 plant dominance increases with growing season temperatures and reflects distinct differences in plant growth rates and water use efficiencies of C3 vs. C4 photosynthetic pathways. However, in lawns, management decisions influence interactions between planted turfgrass and weed species, leading to some uncertainty about the degree of human vs. climatic controls on lawn species distributions. We measured herbaceous plant carbon isotope ratios (δ13C, index of C3/C4 relative abundance) and C4 cover in residential lawns across seven U.S. cities to determine how climate, lawn plant management, or interactions between climate and plant management influenced C4 lawn cover. We also calculated theoretical C4 carbon gain predicted by a plant physiological model as an index of expected C4 cover due to growing season climatic conditions in each city. Contrary to theoretical predictions, plant δ13C and C4 cover in urban lawns were more strongly related to mean annual temperature than to growing season temperature. Wintertime temperatures influenced the distribution of C4 lawn turf plants, contrary to natural ecosystems where growing season temperatures primarily drive C4 distributions. C4 cover in lawns was greatest in the three warmest cities, due to an interaction between climate and homeowner plant management (e.g., planting C4 turf species) in these cities. The proportion of C4 lawn species was similar to the proportion of C4 species in the regional grass flora. However, the majority of C4 species were nonnative turf grasses, and not of regional origin. While temperature was a strong control on lawn species composition across the United States, cities differed as to whether these patterns were driven by cultivated lawn grasses vs. weedy species. In some cities, biotic interactions with weedy plants appeared to dominate, while in other cities, C4 plants were predominantly imported and cultivated. Elevated CO2 and temperature in cities can influence C3/C4 competitive outcomes; however, this study provides evidence that climate and plant management dynamics influence biogeography and ecology of C3/C4 plants in lawns. Their differing water and nutrient use efficiency may have substantial impacts on carbon, water, energy, and nutrient budgets across cities.

Description: This research was funded by a series of collaborative grants from the U.S. National Science Foundation Macrosystems Biology Program (EF‐1065548, 1065737, 1065740, 1065741, 1065772, 1065785, 1065831, 121238320). The authors thank La'Shaye Ervin, William Borrowman, Moumita Kundu, and Barbara Uhl for field and laboratory assistance.

Keywords: C4 plant distribution ; lawns ; macroecology ; plant δ13C ; residential ; urban ; yard management

Repository Name: Woods Hole Open Access Server

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6

Electronic Resource

NOx EMISSIONS FROM SOIL: Implications for Air Quality Modeling in Agricultural Regions (1996)

Hall, Sharon J. ; Matson, Pamela A. ; Roth, Philip M.

Palo Alto, Calif. : Annual Reviews

Annual Review of Environment and Resources 21 (1996), S. 311-346

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ISSN: 1056-3466

Source: Annual Reviews Electronic Back Volume Collection 1932-2001ff

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract Attaining the ambient standard for tropospheric ozone has been difficult in many metropolitan areas, despite efforts to reduce anthropogenic sources of the ozone precursors, including the nitrogen oxides (NOx). Until recently, NOx emissions from biogenic sources in soils were not considered in simulations of air quality and emissions reductions scenarios, yet they may be significant, especially in agricultural regions where nitrogen fertilizers are applied. Soil NOx is produced primarily by microbial processes; production and emissions from soils are controlled by a suite of environmental variables, including inorganic nitrogen availability, water-filled pore space, and soil temperature. Agricultural management practices such as fertilization and irrigation affect these environmental variables and thus have the potential to dramatically alter soil NOx emissions. Although current models incorporate some of these variables, accurate regional estimation of soil NOx emissions requires modeling approaches that explicitly incorporate the spatial and temporal patterns of management practices, especially fertilization, as well as other environmental controlling variables such as water-filled pore space and soil temperature.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1146/annurev.energy.21.1.311

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7

Electronic Resource

Nitrogen oxide emissions after nitrogen additions in tropical forests (1999)

Matson, Pamela A. ; Hall, Sharon J.

[s.l.] : Macmillan Magazines Ltd.

Nature 400 (1999), S. 152-155

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] Industrial development and agricultural intensification are projected to increase in the humid tropics over the next few decades, increasing the emissions, transport and deposition of nitrogen-containing compounds. Most studies of the consequences of enhanced nitrogen deposition have been ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/22094

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