Restoring Abandoned Agricultural Lands in Cold Desert Shrublands: Tradeoffs between Water Availability and Invasive Species

Restoration of abandoned agricultural lands to create resilient ecosystems in arid and semi-arid ecosystems typically requires seeding or transplanting native species, improving plant–soil–water relations, and controlling invasive species. We asked if improving water relations via irrigation or surf...

Full description

Saved in:
Bibliographic Details
Published in:Invasive plant science and management 2014-01, Vol.7 (1), p.176-189
Main Authors: Chambers, Jeanne C, Eldredge, Eric P, Snyder, Keirith A, Board, David I, Forbis de Queiroz, Tara, Hubbard, Vada
Format: Article
Language:English
Subjects:
Agricultural land
Biomass
Cold
Competition
Deserts
Ecosystem resilience
Ecosystems
Endangered & extinct species
Flowers & plants
Growing season
Indigenous plants
Indigenous species
Invasive species
irrigation
Irrigation water
Moisture content
mulch
native plant establishment
Native species
Nonnative species
Planting density
Precipitation
revegetation
sagebrush ecosystems
Seasons
Seeds
Shrublands
Soil erosion
Soil water
Sprinkler irrigation
Vegetation
Water availability
Water relations
weed species
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Restoration of abandoned agricultural lands to create resilient ecosystems in arid and semi-arid ecosystems typically requires seeding or transplanting native species, improving plant–soil–water relations, and controlling invasive species. We asked if improving water relations via irrigation or surface mulch would result in negative tradeoffs between native species establishment and invasive species competition. We examined the effects of sprinkler irrigation and straw mulch on native seed mixtures planted in two consecutive years in an abandoned agricultural field in a cold desert shrubland in southwestern Nevada, USA. Restoration effects differed among years because of contingency effects of growing season conditions. Precipitation was low during the first year and seeded plant density and biomass increased in response to irrigation. Precipitation was relatively high during the second year, seeded plant densities and biomass were generally high, and irrigation had inconsistent effects. Mulch increased native plant cover in the absence of irrigation during the dry year. Invasive plant biomass and cover also were influenced by year, but irrigation increased invasive plants regardless of precipitation. Positive effects of irrigation on seeded plant density, cover, and biomass outweighed negative tradeoffs of increases in invasive plants. In ecosystems with highly variable precipitation, the most effective restoration strategies will most likely be adaptive ones, requiring determination of timing and amount of irrigation based on precipitation, native plant establishment, and invasive species composition and abundance. Nomenclature: 2, 4-D; dimethylamine salt of 2,4-dichlorophenoxyacetic acid. Management Implications: Restoration of abandoned agricultural land to native plant communities can increase soil stability, reduce the spread of invasive species, and enhance the conservation value of the land. In cold desert shrublands where irrigation systems are still in place, irrigation can promote native species establishment despite also increasing invasive species. Irrigation must be sufficiently frequent during initial establishment of the seeded species to maintain the soil drying front above the depth of active root growth. Periodic watering may be required through the second year to allow plants to survive the generally low precipitation and highly variable weather conditions that characterize cold desert shrublands. In cases where irrigation systems are n
ISSN:1939-7291
1939-747X
DOI:10.1614/IPSM-D-13-00046.1