Optimizing Automated Kriging to Improve Spatial Interpolation of Monthly Rainfall over Complex Terrain

Gridded monthly rainfall estimates can be used for a number of research applications, including hydrologic modeling and weather forecasting. Automated interpolation algorithms, such as the “autoKrige” function in R, can produce gridded rainfall estimates that validate well but produce unrealistic spatial patterns. In this work, an optimized geostatistical kriging approach is used to interpolate relative rainfall anomalies, which are then combined with long-term means to develop the gridded estimates. The optimization consists of the following: 1) determining the most appropriate offset (constant) to use when log-transforming data; 2) eliminating poor quality data prior to interpolation; 3) detecting erroneous maps...

Categories: Publication; Types: Citation

Climate Adaptation for Tropical Island Land Stewardship: Adapting a Workshop Planning Process to Hawai‘i

Tropical island ecosystems are highly vulnerable to the multiple threats of climate change (Nurse et al. 2014; Bonan 2008). In response, agencies and organizations are tasked with developing land-management strategies to help ecosystems adapt to changing environmental conditions (Swanston et al. 2016). Research has shown that proactive planning can reduce climate change impacts by facilitating more efficient and rapid responses (Bierbaum et al. 2013). Complex socio-ecological conditions, environmental change related stressors (e.g., wildfire, pests, disease, and drought), a lack of resources, and shifting public policy and agency mandates (Nagel et al. 2017) can all hinder response effectiveness (Crausbay et al....

Categories: Publication; Types: Citation

Pacific Drought Knowledge Exchange (PDKE) Factsheets: Hawaiʻi Volcanoes National Park

Drought on our landscapes can influence future vegetation cover, non-native species invasions, watershed function, and fire behavior. Therefore, the PDKE project seeks to address the critical need for scientists to produce locally relevant, timely, accessible, and actionable science products that managers can use to adapt to potentially drier and hotter climates. So, the PDKE was formed with PI-CASC funding to co-produce drought data and products with project partners, like the Hawaiʻi Volcanoes National Park (HAVO). These factsheets were produced specifically for HAVO.

Pacific Drought Knowledge Exchange (PDKE) Factsheets: Puʻu Waʻawaʻa

Drought on our landscapes can influence future vegetation cover, non-native species invasions, watershed function, and fire behavior. Therefore, the PDKE project seeks to address the critical need for scientists to produce locally relevant, timely, accessible, and actionable science products that managers can use to adapt to potentially drier and hotter climates. So, the PDKE was formed with PI-CASC funding to co-produce drought data and products with project partners, like the State of Hawaiʻi Division of Forestry and Wildlife and the Pacific Cooperative Studies Unit. These factsheets were produced specifically for Puʻu Waʻawaʻa.