Aboveground net primary production dynamics in a northern Chihuahuan Desert ecosystem

Muldavin, Esteban; Moore, Douglas I.; Collins, Scott L.; Wetherill, Karen R.; Lightfoot, David C.

doi:10.1007/s00442-007-0880-2

Cited by 197 publications

(282 citation statements)

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“…Several major biotic zones converge in this area including Chihuahuan Desert grassland and shrubland, Great Plains grassland, Piñon-Juniper woodland, Colorado Plateau shrub-steppe, and riparian vegetation along the middle Rio Grande. Average annual temperature is 13.28C with the highest average temperatures in June (33.48C) and the lowest average in January (1.68C) (Muldavin et al 2008). Annual precipitation is highly variable and averages 250 mm with the majority falling as large summer monsoon events from June through September (Gosz et al 1995, Pennington andCollins 2007); sporadic precipitation occurs throughout the winter and spring as a consequence of frontal systems from the west and northwest.…”

Section: Study Sitementioning

confidence: 99%

“…Grasslands dominated by B. eriopoda occupy large areas throughout the northern Chihuahuan Desert where they intergrade with shrub-dominated vegetation and may co-dominate with Bouteloua gracilis (Jameson 1962, Dick-Peddie 1993, Brown and Smith 2000, Kroël-Dulay et al 2004. Aboveground production of B. eriopoda grasslands is strongly driven by seasonal (monsoon) precipitation and temperature (Gosz and Gosz 1996, Muldavin et al 2008), but unlike aboveground responses the relationship between belowground production, climate and disturbance remains poorly understood (Ladwig et al 2012).…”

Section: Introductionmentioning

confidence: 99%

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Effects of fire on belowground biomass in Chihuahuan desert grassland

Burnett¹,

Hattey²,

Johnson³

et al. 2012

Ecosphere

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Abstract. Grasslands occupy large areas in the northern Chihuahaun Desert. These grasslands, dominated by Bouteloua eriopoda, are subjected to periodic drought, infrequent fire and grazing by herbivores. Previous work shows that B. eriopoda is sensitive to disturbance but much work has been based on aboveground responses. We evaluated seasonal and annual recovery of belowground production and biomass following fire at two sites in ungrazed B. eriopoda-dominated grassland in Central New Mexico, USA. At one site, we quantified belowground standing crop and net primary production in burned and unburned areas during the first full growing season following wildfire the previous summer. At a second site, we measured annual below-and aboveground net primary production in burned and unburned grassland from 2005 through 2010 following a fire in 2003. At the first site, belowground standing crop did not change seasonally nor differ between burned/unburned areas. Patch types were different in that belowground standing crop was higher in soils under clumps of B. eriopoda than patches of unvegetated soil. Patterns of belowground biomass and daily production differed between patch types and over time in burned/unburned areas. Biomass was higher in soils below clumps of B. eriopoda than beneath unvegetated soil patches throughout the monsoon season. Patterns of belowground biomass and daily production differed in burned and unburned areas. Earlier in the growing season, biomass in the burned area was greater than in the unburned area. By early August, biomass increased rapidly in the unburned area and was higher than in the burned area. Daily rates of belowground production generally declined throughout the growing season with a large increase in rate of production in the unburned site in early August. At the second site's measured inter-annual responses, annual belowground production did not differ consistently between burned/unburned grasslands nor over time, nor was belowground production correlated with aboveground production. Our results demonstrate that despite the years required for aboveground production to recover following fire in B. eriopoda-dominated grassland, belowground standing crop and production was unchanged the year following fire. These results emphasize that aboveground production is not a reliable proxy for belowground production in this grassland.

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Section: Study Sitementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effects of fire on belowground biomass in Chihuahuan desert grassland

Burnett¹,

Hattey²,

Johnson³

et al. 2012

Ecosphere

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“…Mean annual precipitation (MAP) over the past 22 years is 240 6 14 mm, with ;60% of MAP occurring in larger, summer monsoon events from June to September (Gosz et al 1995, Pennington andCollins 2007, Petrie et al v www.esajournals.org 2014). Plant production is aligned with precipitation and perennial grass production responds primarily to summer monsoon precipitation both locally and regionally (Muldavin et al 2008, Notaro et al 2010). …”

Section: Study Sitementioning

confidence: 99%

Soil enzyme responses to varying rainfall regimes in Chihuahuan Desert soils

et al. 2015

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Abstract. Extracellular enzyme activities (EEAs) are indicators of both soil microbial activity and nutrient availability for plants. However, it is unclear how EEAs change over the growing season in desert grasslands. We examined whether EEAs changed in response to the size and frequency of rain events during the summer monsoon in the northern Chihuahuan Desert, and if the response varied between plant and interspace associated soils. Potential EEAs were measured within a rainfall manipulation experiment at the Sevilleta National Wildlife Refuge in central New Mexico, USA. Rainfall treatments included either three 10-mm events or one 30-mm rain event per month throughout the three month summer monsoon (July-September). EEAs were measured immediately before and within hours after experimental rain events under plants and in unvegetated interspaces. Throughout the season hydrolase activities were higher under vegetation than in interspace soils. Potential activities of hydrolytic enzymes were similar for the two rainfall regimes. Activities increased following early season rain, showed little response to midseason rain, and decreased following late-season rain. Although enzyme activities did not differ between rainfall treatments, ratios between enzymes varied, indicating different nutrient limitations imposed by rain event size and frequency. Larger nitrogen and phosphorus limitations occurred in interspace soils that experienced large, frequent rain events. Many factors, including location relative to plants, seasonality, and rainfall size and frequency, influenced enzyme activities and nutrient availability in these Chihuahuan Desert soils throughout the monsoon season.

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“…Important dietary components include seeds, acorns, and cultivated grains during fall and winter (Davis et al 1981, Riley et al 1993, forbs during spring (Davis et al 1981), and invertebrates during summer (Jamison et al 2002). Invertebrate abundance is positively related to forb cover (Jamison et al 2002) which in turn responds to grazing (McNaughton 1985) and to precipitation, particularly that which occurs during the winter preceding, and the spring of, the nesting season (Muldavin et al 2008, Xia et al 2010.…”

Section: Discussionmentioning

confidence: 99%

Implications of climatic heterogeneity for conservation of the Lesser Prairie‐Chicken (Tympanuchus pallidicinctus)

Dunn

Milne

2014

Ecosphere

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Abstract. A geographic range is a heterogeneous matrix where the natural capability to support resident species varies from detrimental to optimal. Given this, the first priority for species conservation should be to determine where optimal environments exist. We used MaxEnt species distribution modeling to distinguish climatic characteristics associated with persistent leks from those at random locations in order to characterize the niche and potential distribution of the imperiled Lesser Prairie-Chicken (Tympanuchus pallidicinctus). Annual, brood period, and winter precipitation were the most important characteristics of the niche across the entire range, but maximum temperature during nesting was a key characteristic in the southern part of the range. Habitat suitability across the geographic range was multimodal but also consistent with a center-periphery pattern. Western Kansas and Oklahoma and east-central New Mexico contributed more than expected, whereas all other areas contributed less than expected, to habitat suitability of the geographic range. Lesser Prairie-Chickens appear constrained on the western edge of their range by abiotic factors, namely aridity, unfavorable temperatures and sandy soils. Conversely, they appear constrained on the eastern edge by biotic factors, namely transition from mid-grass to tallgrass prairie that results in dominance by the Greater Prairie-Chicken (Tympanuchus cupido). Conserving Lesser PrairieChickens will depend on maintaining persistent populations in western Kansas and Oklahoma and eastcentral New Mexico, as well as expanding its distribution across Texas. Aridity, unfavorable temperatures, and a paucity of habitat make eastern Colorado and southeastern New Mexico challenging areas for persistence of this species. Climate change may make it more difficult for populations in New Mexico and adjacent parts of Texas to persist, but more favorable for populations in eastern Colorado. The potential difficulties for populations in the southern part of the range will make it increasingly important to conserve populations in western Kansas and Oklahoma.

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Aboveground net primary production dynamics in a northern Chihuahuan Desert ecosystem

Cited by 197 publications

References 50 publications

Effects of fire on belowground biomass in Chihuahuan desert grassland

Effects of fire on belowground biomass in Chihuahuan desert grassland

Soil enzyme responses to varying rainfall regimes in Chihuahuan Desert soils

Implications of climatic heterogeneity for conservation of the Lesser Prairie‐Chicken (Tympanuchus pallidicinctus)

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