Your search keyword '"jemez mountains"' showing total 9 results

1. Predicting wildfire impacts on the prehistoric archaeological record of the Jemez Mountains, New Mexico, USA.

Author

Friggens, Megan M., Loehman, Rachel A., Constan, Connie I., and Kneifel, Rebekah R.

Subjects

FIRE management, WILDFIRE prevention, FOREST fires, RANDOM forest algorithms, WILDFIRES, ARCHAEOLOGICAL excavations, CLIMATE change, CULTURAL property

Abstract

Copyright of Fire Ecology is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

2. ARCYRIA VERSICOLOR OF WESTERN MOUNTAINS, U.S.A. (MYXOMYCETES: TRICHIALES: TRICHIACEAE): A MORPHOLOGICAL AND TAXONOMIC STUDY WITH OBSERVATIONS OF NIVICOLOUS SPECIES.

Author

Keller, Harold W., Stone, Billy G., Price, Relf L., and Forrester, Edward D.

Subjects

MYXOMYCETES, SPECIES, SCANNING electron microscopy, MICROSCOPY, MOUNTAINS

Abstract

Copyright of Journal of the Botanical Research Institute of Texas is the property of Journal of the Botanical Research Institute of Texas and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

3. NITROGEN CAN LIMIT OVERSTORY TREE GROWTH FOLLOWING EXTREME STAND DENSITY INCREASE IN A PONDEROSA PINE FOREST.

Author

MARSHALL, L.A., FALK, DONALD A., and MCDOWELL, NATE G.

Subjects

TREE growth, NITROGEN, PONDEROSA pine, TREE-rings, CARBON isotopes, FOREST ecology

Abstract

Extreme stand density increases have occurred in ponderosa pine forests throughout the western U.S. since the early 20th Century, with adverse implications for growth, physiological functioning, and mortality risk. Identifying primary stressors on large, old overstory trees in dense forests can informmanagement decisions to promote resilience and survival.We tested the impact of stand density increase on overstory tree-ring growth, and the relative influence of water and nitrogen, in an old-growth ponderosa pine forest in northern New Mexico subject to variable density increase. We measured annual tree-ring growth and carbon discrimination in trees before stand density increased, in a climatically-similar period post-density increase, and in recent transition to drought. We expected density-driven water stress to drive reduced tree-ring growth in overstory trees in dense stands.We found reduced growth and higher mortality in dense stands, but nitrogen rather than water constrained growth, as determined by carbon isotope discrimination in tree rings, leaf nitrogen concentration, and soil nitrogen supply. In dense stands, less available nitrogen limited photosynthetic rate, leading to reduced assimilation of intracellular 13C and higher discrimination with low tree-ring growth and a reduced relationship with climate. This unexpected result illustrates that a variety of limiting factors can influence forest dynamics, as density-driven nitrogen limitation interacts with water stress to influence tree growth and physiological functioning. [ABSTRACT FROM AUTHOR]

Published

2019

4. Mapping Tree Density in Forests of the Southwestern USA Using Landsat 8 Data.

Author

Humagain, Kamal, Portillo-Quintero, Carlos, Cox, Robert D., and Cain III, James W.

Subjects

FOREST density, FOREST mapping, LANDSAT satellites, FOREST ecology, FOREST restoration, FOREST fires

Abstract

The increase of tree density in forests of the American Southwest promotes extreme fire events, understory biodiversity losses, and degraded habitat conditions for many wildlife species. To ameliorate these changes, managers and scientists have begun planning treatments aimed at reducing fuels and increasing understory biodiversity. However, spatial variability in tree density across the landscape is not well-characterized, and if better known, could greatly influence planning efforts. We used reflectance values from individual Landsat 8 bands (bands 2, 3, 4, 5, 6, and 7) and calculated vegetation indices (difference vegetation index, simple ratios, and normalized vegetation indices) to estimate tree density in an area planned for treatment in the Jemez Mountains, New Mexico, characterized by multiple vegetation types and a complex topography. Because different vegetation types have different spectral signatures, we derived models with multiple predictor variables for each vegetation type, rather than using a single model for the entire project area, and compared the model-derived values to values collected from on-the-ground transects. Among conifer-dominated areas (73% of the project area), the best models (as determined by corrected Akaike Information Criteria (AICc)) included Landsat bands 2, 3, 4, and 7 along with simple ratios, normalized vegetation indices, and the difference vegetation index (R2 values for ponderosa: 0.47, piñon-juniper: 0.52, and spruce-fir: 0.66). On the other hand, in aspen-dominated areas (9% of the project area), the best model included individual bands 4 and 2, simple ratio, and normalized vegetation index (R2 value: 0.97). Most areas dominated by ponderosa, pinyon-juniper, or spruce-fir had more than 100 trees per hectare. About 54% of the study area has medium to high density of trees (100-1000 trees/hectare), and a small fraction (4.5%) of the area has very high density (>1000 trees/hectare). Our results provide a better understanding of tree density for identifying areas in need of treatment and planning for more effective treatment. Our analysis also provides an integrated method of estimating tree density across complex landscapes that could be useful for further restoration planning. [ABSTRACT FROM AUTHOR]

Published

2017

5. Overstory Tree Mortality in Ponderosa Pine and Spruce-Fir Ecosystems Following a Drought in Northern New Mexico.

Author

Oswald, Brian P., Dugan, Sean C., Balice, Randy G., and Unger, Daniel R.

Subjects

PONDEROSA pine, DROUGHTS, SPRUCE, CLIMATE change, ECOSYSTEMS

Abstract

Drought-caused tree dieback is an issue around the world as climates change and many areas become dryer and hotter. A drought from 1998-2004 resulted in a significant tree dieback event in many of the wooded areas in portions of the Jemez Mountains and the adjacent Pajarito Plateau in northern New Mexico. The objectives of this study were to evaluate and quantify the differences in tree mortality before and after a recent drought in ponderosa pine and spruce-fir ecosystems, and to assess the effect of mechanical thinning on ponderosa pine mortality. Significant increases in mortality were observed in the unthinned ponderosa pine ecosystem. Mortality varied significantly between species and within size classes. Mechanical thinning of ponderosa pines reduced overstory mortality to non-significant levels. A lack of rainfall, snowfall, and increases in daily minimum temperature contributed most to the mortality. Adaptive management, including the use of thinning activities, appear to moderate the impact of climate change on ponderosa pine forests in this region, increasing the long-term health of the ecosystem. The impact of climate change on the spruce-fir ecosystems may accelerate successional changes. [ABSTRACT FROM AUTHOR]

Published

2016

6. Paired charcoal and tree-ring records of high-frequency Holocene fire from two New Mexico bog sites.

Author

Allen, Craig D., Anderson, R. Scott, Jass, Renata B., Toney, Jaime L., and Baisan, Christopher H.

Subjects

WILDFIRES, CHARCOAL, BOGS, WETLANDS, WATERSHEDS

Abstract

Two primary methods for reconstructing paleofire occurrence include dendrochronological dating of fire scars and stand ages from live or dead trees (extending back centuries into the past) and sedimentary records of charcoal particles from lakes and bogs, providing perspectives on fire history that can extend back for many thousands of years. Studies using both proxies have become more common in regions where lakes are present and fire frequencies are low, but are rare where high-frequency surface fires dominate and sedimentary deposits are primarily bogs and wetlands. Here we investigate sedimentary and fire-scar records of fire in two small watersheds in northern New Mexico, in settings recently characterised by relatively high-frequency fire where bogs and wetlands (Chihuahueflos Bog and Alamo Bog) are more common than lakes. Our research demonstrates that: (1) essential features of the sedimentary charcoal record can be reproduced between multiple cores within a bog deposit; (2) evidence from both fire scarred trees and charcoal deposits documents an anomalous lack of fire since 1900, compared with the remainder of the Holocene; (3) sedimentary charcoal records probably underestimate the recurrence of fire events at these high-frequency fire sites; and (4) the sedimentary records from these bogs are complicated by factors such as burning and oxidation of these organic deposits, diversity of vegetation patterns within watersheds, and potential bioturbation by ungulates. We consider a suite of particular challenges in developing and interpreting fire histories from bog and wetland settings in the Southwest. The identification of these issues and constraints with interpretation of sedimentary charcoal fire records does not diminish their essential utility in assessing millennial-scale patterns of fire activity in this dry part of North America. [ABSTRACT FROM AUTHOR]

Published

2008

7. Gradient analysis of reversed treelines and grasslands of the Valles Caldera, New Mexico.

Author

Coop, Jonathan D. and Givnish, Thomas J.

Subjects

ECOTONES, TIMBERLINE, VEGETATION dynamics, FOREST conservation, GRASSLANDS

Abstract

Objective: Treeless meadows and parks are widespread but poorly understood features of the montane vegetation of the western USA. These communities frequently form reversed treelines where grassy valleys occur below forested slopes above. Our purpose was to assess the environmental correlates of such treelines, as well as patterns in the composition and diversity of grasslands and forest margins in the Valles Caldera National Preserve. Location: Valles Caldera National Preserve (35°50′-36°00′ N, 106°24′-106°37′ W, 2175-3150 m), Jemez Mountains, New Mexico, USA. Methods: We conducted a gradient analysis based on 200 nested quadrats on transects crossing reversed treelines and spanning the compositional heterogeneity of grasslands. We used cluster analysis and non-metric multidimensional scaling to assess relationships between compositional variation and environmental variables. Results: We found strong, highly significant relationships of the vegetation to gradients in slope inclination, soil texture, moisture, nutrient availability, and nighttime minimum temperatures. Reversed treelines are most strongly associated with shifts in the thermal regime, exhibit weaker relationships with soil texture and nutrient content, and show no relationship with gravimetric soil moisture. Gradients in aspect, soil moisture, and annual mean temperature are associated with compositional variation within grasslands and forest margins. Conclusions: Lower nightly minimum temperatures and fewer consecutive frost-free days resulting from cold-air drainage may prevent tree seedling establishment in valley bottoms via photo-inhibition, tissue damage, or frost heaving. Finetextured soils may also impede tree seedling establishment in valley bottoms. These findings lay the groundwork for experimental and physiological tests of these potential causes of these reversed treelines. [ABSTRACT FROM AUTHOR]

Published

2007

8. Ground-Dwelling Arthropod Community Responses to Recent and Repeated Wildfires in Conifer Forests of Northern New Mexico, USA.

Author

Ferrenberg, Scott, Wickey, Philipp, and Coop, Jonathan D.

Subjects

WILDFIRE prevention, WILDFIRES, CONIFEROUS forests, COARSE woody debris, PITFALL traps, COMMUNITY organization, FOREST fire ecology, STOCHASTIC processes

Abstract

The increasing frequency and severity of wildfires in semi-arid conifer forests as a result of global change pressures has raised concern over potential impacts on biodiversity. Ground-dwelling arthropod communities represent a substantial portion of diversity in conifer forests, and could be particularly impacted by wildfires. In addition to direct mortality, wildfires can affect ground-dwelling arthropods by altering understory characteristics and associated deterministic community assembly processes (e.g., environmental sorting). Alternatively, disturbances have been reported to increase the importance of stochastic community assembly processes (e.g., probabilistic dispersal and colonization rates). Utilizing pitfall traps to capture ground-dwelling arthropods within forest stands that were burned by one or two wildfires since 1996 in the Jemez Mountains of northern New Mexico, United States (USA), we examined the potential influences of deterministic versus stochastic processes on the assembly of these diverse understory communities. Based on family-level and genera-level arthropod identifications, we found that the multivariate community structures differed among the four fire groups surveyed, and were significantly influenced by the quantities of duff, litter, and coarse woody debris, in addition to tree basal area and graminoid cover. Taxon diversity was positively related to duff quantities, while taxon turnover was positively linked to exposed-rock cover and the number of logs on the ground. Despite the significant effects of these understory properties on the arthropod community structure, a combination of null modeling and metacommunity analysis revealed that both deterministic and stochastic processes shape the ground-dwelling arthropod communities in this system. However, the relative influence of these processes as a function of time since the wildfires or the number of recent wildfires was not generalizable across the fire groups. Given that different assembly processes shaped arthropod communities among locations that had experienced similar disturbances over time, increased efforts to understand the processes governing arthropod community assembly following disturbance is required in this wildfire-prone landscape. [ABSTRACT FROM AUTHOR]

Published

2019

9. Geothermal influences on water quality in the Jemez River.

Author

MCGIBBON, CHRIS

Subjects

WATER quality, GEOTHERMAL resources, STABLE isotopes, AQUIFERS, CLIMATE change

Abstract

The Valles Caldera is an ideal natural laboratory for testing multi-tracer hydrochemical models of geothermal fluid outflow and mixing in distal portions of geothermal systems. Springs with an endogenic component provide evidence of the plume, while the Jemez River provides a location for mixing of different end-member fluids. The models are of relevance for exploiting geothermal potential and understanding threats to water quality. The Valles Caldera is part of a hydrothermal system which has seen extensive study with focus on assessing geothermal potential. The outflow system, the Baca Plume, flows along the fault network in San Diego Canyon. Two pathways have been suggested for the plume, one discharging at Soda Dam and the other at Jemez springs. Questions remain about the extent of the plume and distal effects of the Valles Caldera, with current research suggesting a connection to springs across the Nacimiento Mountains. Geothermal groundwater components lead to degradation of water quality in the Jemez River, a snow melt dominated system, and associated alluvial aquifer; a problem for local stakeholders. With climate change forecasts predicting reduction in snow pack, the contributions to surface water from springs takes on greater significance. Our pilot studies and historical work have used major ion and gas chemistry, and stable isotopes to define the geothermal plume and highlight mixing of different end member fluids. Preliminary geochemical mixing models show that springs at Soda Dam and Jemez Springs do not fall along a simple binary continuum. The significant differences in hydrochemistry suggest complex fault-related flow-paths. [ABSTRACT FROM AUTHOR]

Published

2016