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1. Floral traits of animal-pollinated Sevilleta plant species

   https://doi.org/10.6073/pasta/989a593d316f451246caa041396c0cda  

   Kazenel, Melanie R. (January 2022, Environmental Data Initiative)

   Concern about pollinator populations is widespread, with bees documented to be in decline due to factors including habitat loss, disease, and pesticides. In addition, climate change may be an important cause of bee population losses, but few studies have examined bee abundance relationships with climate variables. Importantly, bees may respond directly to climate or may exhibit indirect responses to climate via changes in plant phenology or community composition. This study collected floral trait data to complement the Sevilleta LTER pollinator monitoring, plant phenology, and plant biomass datasets, with the aim of examining whether floral resource availability mediates bee responses to climate. For 71 common, animal-pollinated flowering plant species, we measured floral traits relevant to pollination in June–October 2018 and April–August 2019 within sites representing four ecosystem types at the Sevilleta National Wildlife Refuge: Plains grassland, Chihuahuan Desert grassland, Chihuahuan Desert shrubland, and piñon-juniper woodland. On a minimum of 5 individuals per plant species, we recorded the total number of open flowers and the corolla width of flowers, along with plant height and vegetative cover. These data may be used in combination with the Sevilleta LTER pollinator monitoring, phenology, and biomass datasets to examine how bee and floral resource abundance, diversity, and phenology vary across years and whether these changes correspond with one another, as well as to consider relationships among climate, floral resource abundance/diversity, and bee abundance/diversity. 

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2. Nitrogen Fertilization Experiment (NFert): Net Primary Production Quadrat Data at the Sevilleta National Wildlife Refuge, New Mexico

   https://doi.org/10.6073/pasta/c6a6ff9d718fbd8fefcff0b747f631a9  

   Baur, Lauren; Collins, Scott; Muldavin, Esteban; Rudgers, Jennifer A; Pockman, William T. (January 2021, Environmental Data Initiative)

   {"Abstract":["This dataset is part of a long-term study at the Sevilleta LTER,\n begun in spring 2004, which examines how fertilization affects\n above-ground biomass production (ANPP) in a mixed desert-grassland.\n Net primary production is a fundamental ecological variable that\n quantifies rates of carbon consumption and fixation. Estimates of\n NPP are important in understanding energy flow at a community level\n as well as spatial and temporal responses to a range of ecological\n processes. Above-ground net primary production is the change in\n plant biomass, represented by stems, flowers, fruit and foliage,\n over time and incorporates growth as well as loss to death and\n decomposition. To measure this change the vegetation variables in\n this dataset, including species composition and the cover and height\n of individuals, are sampled twice yearly (spring and fall) at\n permanent 1m x 1m plots. The data from these plots is used to build\n regressions correlating biomass and volume via weights of select\n harvested species obtained in SEV157, "Net Primary Productivity\n (NPP) Weight Data." This biomass data is included in SEV186,\n "Nitrogen Fertilization Experiment (NFert): Seasonal Biomass\n and Seasonal and Annual NPP Data.""]} 

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3. Net Primary Productivity (NPP) Weight Data at the Sevilleta National Wildlife Refuge, New Mexico

   https://doi.org/10.6073/pasta/ac872953e3e15f097eac1c9e2f4b948d  

   Moore, Douglas I (January 2021, Environmental Data Initiative)

   Several long-term studies at the Sevilleta LTER measure net primary production (NPP) across ecosystems and treatments. Net primary production is a fundamental ecological variable that quantifies rates of carbon consumption and fixation. Estimates of NPP are important in understanding energy flow at a community level as well as spatial and temporal responses to a range of ecological processes. Above-ground net primary production (ANPP) is the change in plant biomass, including loss to death and decomposition, over a given period of time. To measure this change, vegetation variables, including species composition and the cover and height of individuals, are sampled up to three times yearly (winter, spring, and fall) at permanent plots within a study site. The weight data presented here is obtained by harvesting a series of covers for species observed during plot sampling. These species are always harvested from habitat comparable to the plots in which they were recorded. This data is then used to make volumetric measurements of species and build regressions correlating biomass and volume. From these calculations, seasonal biomass and seasonal and annual NPP are determined.   

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4. Monsoon Rainfall Manipulation Experiment (MRME): Seasonal Biomass and Seasonal and Annual NPP Data at the Sevilleta National Wildlife Refuge, New Mexico

   https://doi.org/10.6073/pasta/bf1c082d515068d57fc2f269791dc38d  

   Baur, Lauren; Collins, Scott; Muldavin, Esteban; Rudgers, Jennifer A; Pockman, William T. (January 2021, Environmental Data Initiative)

   {"Abstract":["Begun in fall 2006, this long-term study at the Sevilleta LTER\n examines changes in net primary production (NPP) caused by increased\n precipitation variability within a semiarid grassland. Net primary\n production is a fundamental ecological variable that quantifies\n rates of carbon consumption and fixation. Estimates of NPP are\n important in understanding energy flow at a community level as well\n as spatial and temporal responses to a range of ecological\n processes. While measures of both below- and above-ground biomass\n are important in estimating total NPP, this study focuses on\n above-ground net primary production (ANPP). Above-ground net primary\n production is the change in plant biomass, including loss to death\n and decomposition, over a given period of time. Volumetric\n measurements are made using vegetation data from permanent plots\n (SEV188, "Monsoon Rainfall Manipulation Experiment (MRME): Net\n Primary Production Quadrat Data") and regressions correlating\n species biomass and volume constructed using seasonal harvest\n weights from SEV157, "Net Primary Productivity (NPP) Weight\n Data.""]} 

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5. Sevilleta Plant Species Sensitivity of Dryland Plant Allometry to Climate

   https://doi.org/10.6073/pasta/4b3f227ead1568d42afa20e76727b46c  

   Hallmark, Alesia J; Baker, Stephanie R; Baur, Lauren; Muldavin, Esteban H; Rudgers, Jennifer A; Hall, Kristofer M; Litvak, Marcy E; Pockman, William T; Whitney, Kenneth D (January 2019, Environmental Data Initiative)

   Patterns of plant biomass partitioning are fundamental to estimates of primary productivity and ecosystem process rates. Allometric relationships between aboveground plant biomass and non-destructive measures of plant size, such as cover, volume, or stem density are widely used in plant ecology. Such size-biomass allometry is often assumed to be invariant for a given plant species, plant functional group, or ecosystem type. Allometric adjustments may be an important component of the short- or long-term responses of plants to abiotic conditions. We used 18 years of size-biomass data describing 85 plant species to investigate the sensitivity of allometry to precipitation, temperature, or drought across two seasons and four ecosystems in central New Mexico, USA. Our results demonstrate that many plant species adjust patterns in the partitioning of aboveground biomass under different climates and highlight the importance of long-term data for understanding functional differences among plant species. 

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