Topic
Juniper
About: Juniper is a research topic. Over the lifetime, 1822 publications have been published within this topic receiving 31308 citations. The topic is also known as: the juniper genus & junipers.
Papers published on a yearly basis
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Papers
TL;DR: The time sequence of wet climatic conditions between 1870 and 1915, introduction of livestock, and the reduced role of fire support the hypothesis that these factors contributed to the postsettlement expansions of western juniper.
Abstract: The recent expansion of juniper into sagebrush steppe communities throughout the semiarid Intermountain West is most frequently attributed to the reduced role of fire, introduction and overstocking of domestic livestock in the late 1800s, and mild and wet climate conditions around the turn of the century. This hypothesis has, however, limited quantitative support. There are few studies of fire history in the sagebrush steppe and none that examine the chronosequence of changes in mean fire intervals, introduction of livestock, and coincident climatic conditions with the initiation of post-settlement juniper expansion. This study was undertaken to test the hypothesis that the postsettlement expansion of juniper was synchronous with the introduction of domestic livestock, reduction in fire frequency, and optimal climate conditions for plant growth. We documented the fire history and western juniper (Juniperus occidentalis Hook). woodland chronology for a sagebrush steppe in a 5,000 ha watershed in south central Oregon. Regional tree ring data were used as proxy data for presettlement climatic conditions. Western juniper age distribution was determined by coring trees across the study area. Fire history was constructed from several small clusters of presettlement ponderosa pine (Pinus ponderosa Laws.) scattered across the study area. Samples were crossdated to determine fire occurrence to the calendar year. Mean fire intervals were computed for each cluster based on cumulative fire history of each tree sampled within the cluster. Fire events in low sagebrush (Artemisia arbuscula Nutt.) were documented by determining death dates of fire-killed western juniper trees. Records dating the introduction and buildup of livestock during the late 1800s and dates of initial fire suppression were summarized. Western juniper expansion began between 1875 and 1885, with peak expansion rates occurring between 1905 and 1925. The fire record spans 1601 to 1996. Before 1897, mean fire intervals within individual clusters ranged from 12 to 15 years with years between fires varying between 3 to 28. Nearly one third of the fires in the basin were large and usually proceeded by one year of above-average tree ring growth. Two fire events were recorded in the sparsely vegetated low sagebrush site, 1717 and 1855. The last large fire occurred in the study area in 1870 and the last small fire in 1897. The time sequence of wet climatic conditions between 1870 and 1915, introduction of livestock, and the reduced role of fire support the hypothesis that these factors contributed to the postsettlement expansions of western juniper.
411 citations
Colorado State University1, United States Geological Survey2, Oregon State University3, University of Wyoming4, New Mexico State University5, Edinboro University of Pennsylvania6, Prescott College7, Northern Arizona University8, National Park Service9, University of New Mexico10, University of Arizona11, United States Department of Agriculture12, University of Nevada, Reno13
TL;DR: In this paper, the authors summarized what we know (and don't know) about three fundamentally different kinds of pinon-juniper vegetation, and provided a source of information for managers and policy makers, and stimulate researchers to address the most important unanswered questions.
385 citations
TL;DR: In this paper, the authors look back at past climate change and its effects on vegetation and show that significant climate changes have occurred more recently in the intermountain region of the western United States, the vast area in the West lying between the Sierra Nevadas and Cascades.
Abstract: ith the prospect of global warming, it is interesting to look back at past climate change and its effects on vegetation. Although the greatest change in climate probably occurred during deglaciation, 12,500 to 11,000 years ago, significant climate changes have occurred more recently in the intermountain region of the western United States, the vast area in the West lying between the Sierra Nevadas and Cascades
381 citations
TL;DR: The results provide strong evidence that ≥ 1 yr of severe drought predisposes piñon to insect attacks and increases mortality, whereas 3 yr of the same drought causes partial canopy loss in juniper.
Abstract: Summary
To test the hypothesis that drought predisposes trees to insect attacks, we quantified the effects of water availability on insect attacks, tree resistance mechanisms, and mortality of mature pinon pine (Pinus edulis) and one-seed juniper (Juniperus monosperma) using an experimental drought study in New Mexico, USA.
The study had four replicated treatments (40 × 40 m plot/replicate): removal of 45% of ambient annual precipitation (H2O−); irrigation to produce 125% of ambient annual precipitation (H2O+); a drought control (C) to quantify the impact of the drought infrastructure; and ambient precipitation (A).
Pinon began dying 1 yr after drought initiation, with higher mortality in the H2O− treatment relative to other treatments. Beetles (bark/twig) were present in 92% of dead trees. Resin duct density and area were more strongly affected by treatments and more strongly associated with pinon mortality than direct measurements of resin flow. For juniper, treatments had no effect on insect resistance or attacks, but needle browning was highest in the H2O− treatment.
Our results provide strong evidence that ≥ 1 yr of severe drought predisposes pinon to insect attacks and increases mortality, whereas 3 yr of the same drought causes partial canopy loss in juniper.
309 citations
TL;DR: Investigation of patterns of mortality in six dominant plant species during a drought in the southwestern United States revealed three major patterns: dominant species from diverse habitat types exhibited significant mortality, indicating that the effects of drought were widespread, and all dominant species showed localized patterns of very high mortality consistent with water stress gradients.
Abstract: Understanding patterns of plant population mortality during extreme weather events is important to conservation planners because the frequency of such events is expected to increase, creating the need to integrate climatic uncertainty into management. Dominant plants provide habitat and ecosystem structure, so changes in their distribution can be expected to have cascading effects on entire communities. Observing areas that respond quickly to climate fluctuations provides foresight into future ecological changes and will help prioritize conservation efforts. We investigated patterns of mortality in six dominant plant species during a drought in the southwestern United States. We quantified population mortality for each species across its regional distribution and tested hypotheses to identify ecological stress gradients for each species. Our results revealed three major patterns: (1) dominant species from diverse habitat types (i.e., riparian, chaparral, and low- to high-elevation forests) exhibited significant mortality, indicating that the effects of drought were widespread; (2) average mortality differed among dominant species (one-seed juniper (Juniperus monosperma (Engelm.) Sarg.) 3.3%; manzanita (Arctostaphylos pungens Kunth), 14.6%; quaking aspen (Populus tremuloides Michx.), 15.4%; ponderosa pine (Pinus ponderosa P. & C. Lawson), 15.9%; Fremont cottonwood (Populus fremontii S. Wats.), 20.7%; and pinyon pine (Pinus edulis Engelm.), 41.4%); (3) all dominant species showed localized patterns of very high mortality (24-100%) consistent with water stress gradients. Land managers should plan for climatic uncertainty by promoting tree recruitment in rare habitat types, alleviating unnatural levels of competition on dominant plants, and conserving sites across water stress gradients. High-stress sites, such as those we examined, have conservation value as barometers of change and because they may harbor genotypes that are adapted to climatic extremes.
295 citations
Related Topics (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2025 | 54 |
| 2024 | 62 |
| 2023 | 100 |
| 2022 | 281 |
| 2021 | 71 |
| 2020 | 63 |