Collaborative Research: Vulnerability of Semi-arid Grasslands to Encroachment by Woody Plants: the Role of Grass Invasions, Seasonal Precipitation, and Soil Type

合作研究：半干旱草原对木本植物侵占的脆弱性：草类入侵、季节性降水和土壤类型的作用

• 批准号: 0418134
• 负责人: Travis Huxman
• 金额: $ 14.28万
• 依托单位: University of Arizona
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2004
• 资助国家: 美国
• 起止时间: 2004-09-01 至 2007-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0418134&HistoricalAwards=false
• 关键词: Collaborative; Research; Vulnerability; Semi; arid

Within the last 100 years, many grasslands throughout the southwestern United States have been inadvertently converted to dense thickets of woody plants, including the thorny shrub mesquite. These conversions have had important impacts on human activities, biological diversity, nutrient cycling, and wildfire regimes. However, many mesquite-dominated grasslands have themselves been recently invaded by an African grass, Lehmann lovegrass. Invasions by this grass may change the availability of water and nutrients in the soil, and thus shift mesquite shrublands back towards grassland. However, these grasslands would be dominated by a non-native grass with arguably greater impacts on ecological systems than mesquite has had on former grasslands. When predicting how southwestern rangelands might respond to invasions by grasses and woody plants, one must also consider how soil characteristics (e.g., clay content) and potential changes in climate (e.g., changes in precipitation) affect the relative performance, and the ultimate ratio, of grasses to shrubs. By conducting a field experiment in southern Arizona, the investigators will test the hypothesis that grass invasions will interact with soil type and seasonal precipitation to affect the successful establishment of mesquite in this habitat. The response of mesquite introduced as seeds into experimental plots will be used to gauge the potential response of this species to different environments. Concurrent investigations of the cycling and storage of carbon dioxide and water within these plots will facilitate our understanding of interactions between water, soil type, and plant cover. This research explicitly considers both climate change and biological invasions, each of which will continue to affect natural ecological systems and the goods and services that they provide to human society. Research will foster collaborations between scientists, land managers, and students from several institutions, and will promote interdigitation of subdisciplines including soil science, modeling, ecology and atmospheric sciences. The project includes training opportunities for students, including those in teacher training programs and in underrepresented groups.

在过去的 100 年里，美国西南部的许多草原无意中变成了茂密的木本植物灌木丛，其中包括带刺的灌木豆科灌木。 这些转变对人类活动、生物多样性、养分循环和野火状况产生了重要影响。 然而，许多以豆科灌木为主的草原最近却被一种非洲草——莱曼爱情草（Lehmann lovegrass）入侵。 这种草的入侵可能会改变土壤中水和养分的可用性，从而将豆科灌木丛移回草原。 然而，这些草原将以非本地草为主，其对生态系统的影响可能比豆科灌木对以前草原的影响更大。在预测西南牧场如何应对草和木本植物的入侵时，还必须考虑土壤特征（例如粘土含量）和潜在的气候变化（例如降水量变化）如何影响草与灌木的相对性能和最终比例。 通过在亚利桑那州南部进行实地实验，研究人员将验证草类入侵将与土壤类型和季节性降水相互作用，从而影响豆科灌木在该栖息地的成功建立的假设。 作为种子引入实验田的豆科灌木的反应将用于衡量该物种对不同环境的潜在反应。 对这些地块内二氧化碳和水的循环和储存的同时研究将有助于我们了解水、土壤类型和植物覆盖之间的相互作用。 这项研究明确考虑了气候变化和生物入侵，这两者都将继续影响自然生态系统及其为人类社会提供的商品和服务。 研究将促进科学家、土地管理者和多个机构的学生之间的合作，并将促进包括土壤科学、建模、生态学和大气科学在内的子学科的相互交叉。 该项目包括为学生提供培训机会，包括教师培训项目和代表性不足群体的培训机会。