Simulating Strategic Implementation of the CRP to Increase Greater Prairie‐Chicken Abundance

Abstract

ABSTRACTThe Conservation Reserve Program (CRP) has the potential to influence the distribution and abundance of grasslands in many agricultural landscapes, and thereby provide habitat for grassland‐dependent wildlife. Greater prairie‐chickens (Tympanuchus cupido pinnatus) are a grassland‐dependent species with large area requirements and have been used as an indicator of grassland ecosystem function; they are also a species of conservation concern across much of their range. Greater prairie‐chicken populations respond to the amount and configuration of grasslands and wetlands in agriculturally dominated landscapes, which in turn can be influenced by the CRP; however, CRP enrollments and enrollment caps have declined from previous highs. Therefore, prioritizing CRP reenrollments and new enrollments to achieve the greatest benefit for grassland‐dependent wildlife seems prudent. We used models relating either lek density or the number of males at leks to CRP enrollments and the resulting landscape structure to predict changes in greater prairie‐chicken abundance related to changes in CRP enrollments. We simulated 3 land‐cover scenarios: expiration of existing CRP enrollments, random, small‐parcel (4,040 m2) addition of CRP grasslands, and strategic, large‐parcel (80,000 m2) addition of CRP grasslands. Large‐parcel additions were the average enrollment size in northwestern Minnesota, USA, within the context of a regional prairie restoration plan. In our simulations of CRP enrollment expirations, the abundance of greater prairie‐chickens declined when grassland landscape contiguity declined with loss of CRP enrollments. Simulations of strategic CRP enrollment with large parcels to increase grassland contiguity more often increased greater prairie‐chicken abundance than random additions of the same area in small parcels that did not increase grassland contiguity. In some cases, CRP enrollments had no or a negative predicted change in greater prairie‐chicken abundance because they provided insufficient grassland contiguity on the landscape, or increased cover‐type fragmentation. Predicted greater prairie‐chicken abundance increased under large‐parcel and small‐parcel scenarios of addition of CRP grassland; the greatest increases were associated with large‐parcel additions. We suggest that strategic application of the CRP to improve grassland contiguity can benefit greater prairie‐chicken populations more than an opportunistic approach lacking consideration of the larger landscape context. Strategic implementation of the CRP can benefit greater prairie‐chicken populations in northwestern Minnesota, and likely elsewhere in landscapes where grassland continuity may be a limiting factor. © 2020 The Wildlife Society.