Posts

title Long-term record of streamwater chemistry in Sycamore Creek, Arizona, USA (1977-1999) abstract The primary objective of this project is to understand how long-term climate variability and change influence the structure and function of desert streams via effects on hydrologic disturbance regimes. Climate and hydrology are intimately linked in arid landscapes; for this reason, desert streams are particularly well suited for both observing and understanding the consequences of climate variability and directional change. [Read More]

title Long-term monitoring of streamwater chemistry in Sycamore Creek, Arizona, USA (2010-2014) abstract The primary objective of this project is to understand how long-term climate variability and change influence the structure and function of desert streams via effects on hydrologic disturbance regimes. Climate and hydrology are intimately linked in arid landscapes; for this reason, desert streams are particularly well suited for both observing and understanding the consequences of climate variability and directional change. [Read More]

dataset: knb-lter-cap.375 title: Macroinvertebrate collections following floods in Sycamore Creek, Arizona, USA (1985-1999) short-name: macroinvertebrates and flooding dataset: knb-lter-cap.589 title: Long-term monitoring of macroinvertebrates in Sycamore Creek, Arizona, USA (2010-2019) short-name: macroinvertebrates dataset: knb-lter-cap.590 title: Algal Nutrient Limitation Bioassays in Sycamore Creek, Arizona, USA (2010-2020) short-name: NDS dataset: knb-lter-cap.593 title: Long-term measurements of algal biomass in Sycamore Creek, Arizona, USA (2011-2019) short-name: algae dataset: knb-lter-cap. [Read More]

title Long-term monitoring of macroinvertebrates in Sycamore Creek, Arizona, USA (2010-2019) abstract The primary objective of this project is to understand how long-term climate variability and change influence the structure and function of desert streams via effects on hydrologic disturbance regimes. Climate and hydrology are intimately linked in arid landscapes; for this reason, desert streams are particularly well suited for both observing and understanding the consequences of climate variability and directional change. [Read More]

title Long-term monitoring of floodwater chemistry in Sycamore Creek, Arizona, USA (2010-2020) abstract The primary objective of this project is to understand how long-term climate variability and change influence the structure and function of desert streams via effects on hydrologic disturbance regimes. Climate and hydrology are intimately linked in arid landscapes; for this reason, desert streams are particularly well suited for both observing and understanding the consequences of climate variability and directional change. [Read More]

title Long-term measurements of algal biomass in Sycamore Creek, Arizona, USA (2011-2019) abstract The primary objective of this project is to understand how long-term climate variability and change influence the structure and function of desert streams via effects on hydrologic disturbance regimes. Climate and hydrology are intimately linked in arid landscapes; for this reason, desert streams are particularly well suited for both observing and understanding the consequences of climate variability and directional change. [Read More]

title Dissolved organic carbon dynamics in an urban desert stream ecosystem in central Arizona-Phoenix abstract Variation in stream chemistry is a function of the strength of terrestrial-aquatic linkages, the extent to which surface and groundwater exchanges, and the rate of instream biotic processes. The importance of these variables may fluctuate as a function of climate regime, catchment geomorphology, or level of human impact. A mechanistic understanding of the influence of each of these variables on ecosystem functioning will increase understanding of the role of streams in global nutrient and carbon cycles. [Read More]

title Algal Nutrient Limitation Bioassays in Sycamore Creek, Arizona, USA (2010-2020) abstract The primary objective of this project is to understand how long-term climate variability and change influence the structure and function of desert streams via effects on hydrologic disturbance regimes. Climate and hydrology are intimately linked in arid landscapes; for this reason, desert streams are particularly well suited for both observing and understanding the consequences of climate variability and directional change. [Read More]

title Long-term record of wetted area, substrate type, and plant features in Sycamore Creek, Arizona, USA (2010-2020) abstract The primary objective of this project is to understand how long-term climate variability and change influence the structure and function of desert streams via effects on hydrologic disturbance regimes. Climate and hydrology are intimately linked in arid landscapes; for this reason, desert streams are particularly well suited for both observing and understanding the consequences of climate variability and directional change. [Read More]

title Wetland abundance and distribution changes in Sycamore Creek, Arizona, USA (2014-2019) abstract The primary objective of this project is to understand how long-term climate variability and change influence the structure and function of desert streams via effects on hydrologic disturbance regimes. Climate and hydrology are intimately linked in arid landscapes; for this reason, desert streams are particularly well suited for both observing and understanding the consequences of climate variability and directional change. [Read More]