00564nas a2200133 4500008004100000245011800041210006900159300001300228490000800241100002000249700001600269700001600285856012900301 1999 eng d00aWeather effects on winter birds: the response of a Kansas winter bird community to weather, photoperiod, and year0 aWeather effects on winter birds the response of a Kansas winter a550 -5580 v1111 aStapanian, M.A.1 aSmith, C.C.1 aFinck, E.J. uhttp://lter.konza.ksu.edu/content/weather-effects-winter-birds-response-kansas-winter-bird-community-weather-photoperiod-and00575nas a2200145 4500008004100000245011300041210006900154300001200223100001800235700001800253700002000271700001600291700001900307856010300326 1995 eng d00aEffect of topography on the distribution of small mammals on the Konza Prairie Research Natural Area, Kansas0 aEffect of topography on the distribution of small mammals on the a97 -1021 aKaufman, G.K.1 aKaufman, D.W.1 aBrillhart, D.E.1 aFinck, E.J.1 aHartnett, D.C. uhttp://images.library.wisc.edu/EcoNatRes/EFacs/NAPC/NAPC14/reference/econatres.napc14.gkaufman.pdf01627nas a2200145 4500008004100000245009600041210006900137300001000206490000800216520108700224100001801311700001801329700001601347856011801363 1995 eng d00aTemporal variation in abundance of Peromyscus leucopus in wooded habitats of eastern Kansas0 aTemporal variation in abundance of Peromyscus leucopus in wooded a7 -170 v1333 aWhite-footed mice (Peromyscus leucopus) were sampled during spring, summer and autumn on the Konza Prairie Research Natural Area, Kansas, from autumn 1981 to spring 1988. Abundance was greater in gallery forest than in wooded outcrop habitat, although temporal patterns of abundance were similar with highs in 1981-1982 and 1985-1986. Standard deviations (SD) of the common logarithm of abundance were ≤ 0.32 for each of four sites in spring, summer and autumn, except for one forest site in spring. Our SD values were similar to those reported for other populations of P. leucopus. Abundance of P. leucopus was related to its abundance in the previous season (spring abundance vs. that in previous autumn, summer abundance vs. that in previous spring and autumn abundance vs. that in previous summer), seed production by woody vegetation and precipitation, but the factors that had a major influence on abundance of P. leucopus varied among spring, summer and autumn populations. Ambient temperature was unrelated to abundance of P. leucopus during each of the 3 seasons studied.1 aKaufman, D.W.1 aKaufman, G.A.1 aFinck, E.J. uhttp://lter.konza.ksu.edu/content/temporal-variation-abundance-peromyscus-leucopus-wooded-habitats-eastern-kansas01985nas a2200169 4500008004100000245011800041210006900159300001100228490000800239520134400247653002201591100001701613700001901630700001601649700001901665856013101684 1993 eng d00aThe interactive effects of fire, bison (Bison bison) grazing and plant community composition in tallgrass prairie0 ainteractive effects of fire bison Bison bison grazing and plant a10 -180 v1293 aFire and native large herbivore grazing were two important influences on the structure and function of North American grasslands. In 1988 and 1989 the influence of fire regime on grazing patterns of North American bison (Bison bison) was studied on the Konza Prairie in northeastern Kansas. Bison grazing was spatially and temporally nonrandom and was influenced by fire regime and local plant community composition. During the growing season, bison were observed up to 3 x more frequently than expected on watersheds burned in the spring. Summer grazing was concentrated in large watershed areas (79-119 ha) dominated by warm-season, perennial, C4 grasses. During the autumn and winter, bison grazed both burned and unburned watersheds more uniformly but grazed most intensively in areas with large stands of cool-season, C3 grasses. On a smaller spatial scale (5-10 m2), bison selected patches during the growing season with low forb cover dominated by the perennial C4 grass, Andropogon gerardii. Grazed patches were larger on frequently burned than on infrequently burned watersheds. The importance of fire history in determining patterns of bison grazing over the landscape indicates that interactions between bison grazing and fire regime may be important to the composition and spatial heterogeneity of tallgrass prairie vegetation.10atallgrass prairie1 aVinton, M.A.1 aHartnett, D.C.1 aFinck, E.J.1 aBriggs, J., M. uhttp://lter.konza.ksu.edu/content/interactive-effects-fire-bison-bison-bison-grazing-and-plant-community-composition-tallgrass00513nas a2200133 4500008004100000245008800041210006900129300001100198490000700209100001800216700001800234700001600252856011100268 1993 eng d00aSmall mammals of wooded habitats of the Konza Prairie Research Natural Area, Kansas0 aSmall mammals of wooded habitats of the Konza Prairie Research N a27 -320 v251 aKaufman, D.W.1 aKaufman, G.A.1 aFinck, E.J. uhttp://lter.konza.ksu.edu/content/small-mammals-wooded-habitats-konza-prairie-research-natural-area-kansas01368nas a2200181 4500008004100000245003800041210003800079260004600117300001100163520083700174653000901011100001801020700001601038700001801054700002401072700001801096856007201114 1990 eng d00aSmall mammals and grassland fires0 aSmall mammals and grassland fires aNorman, OKbUniversity of Okalahoma Press a46 -803 a
For study of fire effects, the general null hypothesis is that fire will have no impact on the population density of individual animal species. Any species that fails to change numerically due to fire would be classified as a fire-neutral species. Alternatively, a population that could exhibit either a positive or negative numerical response to fire. Such species we classify as fire-positive or fire-negative species, respectively. Most early work on animals and fire was aimed at describing these general population responses. However, understanding the structure and function of grasslands demands that we know patterns of population changes from prefire through a multiyear, post-fire period, rather than simply ascertaining whether species are fire- positve, fire-negative, or fire-neutral over a short postfire period
10afire1 aKaufman, D.W.1 aFinck, E.J.1 aKaufman, G.A.1 aCollins, Scott., L.1 aWallace, L.L. uhttp://lter.konza.ksu.edu/content/small-mammals-and-grassland-fires01684nas a2200229 4500008004100000245004100041210003700082260004600119300001300165520104300178653000901221100001601230700001601246700001901262700001701281700001601298700001801314700001901332700001601351700002101367856006601388 1989 eng d00aIs fire a disturbance in grasslands?0 afire a disturbance in grasslands aLincoln, NEbUniversity of Nebraska Press a159 -1613 aMany grasslands, and in particular the tallgrass prairies of North America, are generally thought to be maintained by periodic fire. Semantic disagreement among researchers, however, threatens to hamper discussion of fire as an ecological force in grassland ecosystems. Some authors emphasize that fires are disturbances (or perturbations) since these fires disrupt or alter ecosystem states, trends and dynamics (e.g., accumulating nitrogen is volatilized, plant and animal communities change in composition). Other researchers point out that, because these fire-induced disruptions and alterations can maintain the status quo of the ecosystem (e.g., prevent it from becoming woodland), it is the lack of fire rather than fire itself that should be considered a disturbance. We argue that, since both points of view are useful, there is little to be gained by labeling loosely either fire or lack thereof as a "disturbance" in grassland ecosystems. Key Words: disturbance, fire, grasslands, perturbation, prairie, Kansas
10afire1 aEvans, E.W.1 aFinck, E.J.1 aBriggs, J., M.1 aGibson, D.J.1 aJames, S.W.1 aKaufman, D.W.1 aSeastedt, T.R.1 aBragg, T.B.1 aStubbendieck, J. uhttp://lter.konza.ksu.edu/content/fire-disturbance-grasslands02009nas a2200181 4500008004100000245007300041210006900114260004600183300001300229520137300242653002201615100001801637700001801655700001601673700001601689700002101705856010101726 1989 eng d00aRodents and shrews in ungrazed tallgrass prairie manipulated by fire0 aRodents and shrews in ungrazed tallgrass prairie manipulated by aLincoln, NEbUniversity of Nebraska Press a173 -1773 aNatural Prairie was a mosaic of patches of depths of plant litter due to topoedaphic conditions and to spatial-temporal variation in fire and grazing. Such variation in litter depth undoubtedly influenced the distribution and abundance of small mammals. To examine this issue, small mammals were censused and plant litter depth was measured during autumn from 1981 to 1984 on the Konza Prairie Natural Research Area near Manhattan, Kansas. Five to 11 sites subjected to fire at different times from 1967 to 1984 were sampled during each of the four years of the study. Relative densities of deer mice (Peromyscus maniculatus) were negatively correlated to litter depth, wheras relative densities of Elliot's short-tailed shrews (Blarina hylophaga) and western harvest mice (Reithrodontomys megalotis) were positively correlated to the depth of plant litter. White-footed mice (Peromyscus leucopus), typically found in wooded and brushy habitats, were captured in prairie sites, but no significant association with plant litter was evident. Although prairie voles (Microtus ochrogaster) were expected to be positively associated with litter, no significant relationship was found for 1982 (the only year with sufficiently high densities to test for a possible pattern). Key words: small mammals, plant litter, tallgrass prairie, fire, rodents, shrews, Kansas
10atallgrass prairie1 aKaufman, D.W.1 aKaufman, G.A.1 aFinck, E.J.1 aBragg, T.B.1 aStubbendieck, J. uhttp://lter.konza.ksu.edu/content/rodents-and-shrews-ungrazed-tallgrass-prairie-manipulated-fire01688nas a2200169 4500008004100000245008500041210006900126300001300195490000700208520110300215653002201318100001601340700001801356700001601374700001801390856011001408 1989 eng d00aSmall mammals in tallgrass prairie: patterns associated with grazing and burning0 aSmall mammals in tallgrass prairie patterns associated with graz a177 -1840 v213 aImpacts of cattle grazing and prescribed spring burning on small mammals were assessed in (1) ungrazed and unburned, (2) ungrazed and burned, and (3) grazed and burned grassland habitats in the Flint Hills of eastern Kansas. Twelve species of small mammals were represented by the 287 individuals captured. Deer mice (Peromyscus maniculatus; 41% of all individuals), Elliot's short-tailed shrews (Blarina hylophaga; 22%), white-footed mice (P. leucopus; 14%), and prairie voles (Microtus ochrogaster; 11%) were the four most common species. Deer mice avoided ungrazed, unburned sites, whereas Elliot's short-tailed shrews and prairie voles were most abundant in ungrazed, unburned habitats. Habitat use by these species was probably influenced by differences in amount of litter and vegetation cover resulting from grazing and burning. White-footed mice were most common in grazed, burned sites, probably due to the numerous shrub patches in this habitat. Assemblage diversity and total numbers of small mammals captured were not significantly influenced by either grazing or burning
10atallgrass prairie1 aClark, B.K.1 aKaufman, D.W.1 aFinck, E.J.1 aKaufman, G.A. uhttp://lter.konza.ksu.edu/content/small-mammals-tallgrass-prairie-patterns-associated-grazing-and-burning02038nas a2200157 4500008004100000245014400041210006900185300001300254490000700267520140300274653002201677100001801699700001801717700001601735856012901751 1988 eng d00aInfluence of fire and topography on habitat selection by Peromyscus maniculatus and Reithrodontomys megalotis in ungrazed tallgrass prairie0 aInfluence of fire and topography on habitat selection by Peromys a342 -3520 v693 aTwelve species of small mammals were captured in 10 treatment areas manipulated by fire on the Konza Prairie Research Natural Area, Kansas. The four fire classes studied were annual fire, first year after fire with previous fire greater than or equal to 4 years earlier (year 1), 2-4 years since fire (years 2-4), and greater than or equal to five years since fire (year 5+). Of the two common rodents, Peromyscus maniculatus selected year 1 sites in all seasons, whereas Reithrodontomys megalotis selected annual fire sites in spring and years 2-4 site in summer with no differences in autumn. Based on 12 fire- topography categories (fire categories the same as above; topography categories: upland, breaks [area of the limestone outcrop at the edge of the hills] and lowland), habitat selection by P. maniculatus and R. megalotis differed significantly between autumn and summer, but could not be tested for spring. Analysis of structural features demonstrated that habitat use by P. maniculatus was related negatively to amount of litter and positively to amount of exposed soil and grass. These three features were related to time since fire; however, the lack of litter likely was the most important features in the positive response by P. maniculatus to conditions following a fire. In contrast, no significant relationships were found between habitat features and use by R. megalotis
10atallgrass prairie1 aKaufman, G.A.1 aKaufman, D.W.1 aFinck, E.J. uhttp://lter.konza.ksu.edu/content/influence-fire-and-topography-habitat-selection-peromyscus-maniculatus-and-reithrodontomys01539nas a2200181 4500008004100000245007800041210006900119300001300188490000800201520093700209653002201146100001601168700001801184700001801202700001601220700001501236856010601251 1988 eng d00aLong-distance movements by Reithrodontomys megalotis in tallgrass prairie0 aLongdistance movements by Reithrodontomys megalotis in tallgrass a276 -2810 v1203 aDuring 6 years of small mammal trapping on Konza Prairie Research Natural Area, Kansas, we documented long-distance movements (defined as movements > 300 m) for 17 western harvest mice (Reithrodontomys megalotis). Linear distance moved ranged from 375 to 3200 m (median=600 m; mean=1049m) for all individuals. Males moved significantly farther, but not more often than females. Sixteen of the 17 animals that moved were adults and included reproductively active individuals. Although < 2% of the more than 1400 R. megalotis we captured moved > 300 m, the actual percentage should be much higher since our trapping efforts were limited in space and time. Since long-distance movements of individuals may have a marked effect on the genetic, social and demographic characteristics of populations, future studies of small mammals should be designed to better assess the influence of these movements on local populations
10atallgrass prairie1 aClark, B.K.1 aKaufman, D.W.1 aKaufman, G.A.1 aFinck, E.J.1 aHand, S.S. uhttp://lter.konza.ksu.edu/content/long-distance-movements-reithrodontomys-megalotis-tallgrass-prairie01513nas a2200169 4500008004100000245005200041210005200093300001300145490000700158520100800165653002201173100001601195700001801211700001601229700001801245856008001263 1987 eng d00aUse of tallgrass prairie by Peromyscus leucopus0 aUse of tallgrass prairie by Peromyscus leucopus a158 -1600 v683 aThe white-footed mouse (Peromuscus leucopus) is a common resident of forests and woodlands but not grasslands in Kansas. Studies of P. leucopus on Konza Prairie Research Natural Area (KONZA) indicated that wooded microhabitats with a complex verticle structure of trees and shrubs were selected over wooded microhabitats that lacked a shrub layer. Even more striking was the near lack of use of grassland habitat contiguous with the wooded sites. In other regions, Geluso (1971) and Adler et al. (1984) have documented occasional use of grasslands by P. leucopus, especially when high densities were reached in adjacent wooded habitat. The purpose of this paper is to 1) document use of ungrazed tallgrass prairie by P. leucopus, 2) compare relative densities of P. leucopusacross three major habitats on KONZA (ungrazed tallgrass prairie, limestone ledges with shrubs and trees, and gallery forest), and 3)provide information on the distribution of P. leucopus within ungrazed grassland of KONZA
10atallgrass prairie1 aClark, B.K.1 aKaufman, D.W.1 aFinck, E.J.1 aKaufman, G.A. uhttp://lter.konza.ksu.edu/content/use-tallgrass-prairie-peromyscus-leucopus01746nas a2200169 4500008004100000245006300041210006300104260009000167300001100257520114600268653000901414653001201423100001601435700001801451700001701469856009001486 1986 eng d00aBirds wintering on the Konza Prairie Research Natural Area0 aBirds wintering on the Konza Prairie Research Natural Area aFargo, ND,bNorth Dakota State University: Tri-College Center for Environmental Study a91 -943 aWintering birds were censused along 16 permanent transects (13 in prairie and 3 in gallery forest) that were established within the Konza Prairie Research Natural Area (KPRNA) 10 km south of Manahttan, Kansas. Each transect was censused once in the first two weeks of January during 1982-1984. The prairie transects were either burned or unburned the previous spring and ungranzed by large herbivores for at least six years. Significantly more individuals per km and more species were observed in the gallery forest than in the prairie. The red headed woodpecker (Melanerpes erythrocephalus) was the most abundant species during 1982 and 1984 in the gallery forest, while black-capped chickadee (Parus atricapillus) was the most abundant in 1983. The abundance of red-headed woodpecker was negatively correlated with the abundance of red-bellied woodpecker (Melanerpes carolinus), but not correlated with blue jay (Cyanocitia cristaia) abundance. Red-bellied woodpecker abundance was not correlated with blue jay abundance. American tree sparrow (Spizella arborea) was the most abundant species in the prairie during all three winters
10abird10aprairie1 aFinck, E.J.1 aClambey, G.K.1 aPemble, R.H. uhttp://lter.konza.ksu.edu/content/birds-wintering-konza-prairie-research-natural-area01357nas a2200205 4500008004100000245006300041210006200104300001300166490000700179520073500186653002200921100001600943700001800959700001800977700001600995700001601011700001901027700001601046856008901062 1986 eng d00aMammals of the Konza Prairie Research Natural Area, Kansas0 aMammals of the Konza Prairie Research Natural Area Kansas a153 -1660 v183 aAn annotated list of the mammals was compiled from trapping records and observation for the Konza Prairie Research Natural Area (KONZA), a tall-grass prairie in the Flint Hills of eastern Kansas. Thirty-one species, 1 opossum, 2 shrews, 1 mole, 1 rabbit, 17 rodents, 7 carnivores, and 2 ungulates, were recorded. Habitat use and range for each species were included relative to our experience with the animals on KONZA. Percent composition of small mammals was presented by habitat type for 15 species captured on 26 permanent live traplines from autumn 1981 to spring 1984. The likelihood of occurrence on KONZA was disscused for 15 species (8 bats, 1 hare, 2 rodents, and 4 carnivores) not presently recorded for the site
10atallgrass prairie1 aFinck, E.J.1 aKaufman, D.W.1 aKaufman, G.A.1 aGurtz, S.K.1 aClark, B.K.1 aMcLellan, L.J.1 aClark, B.S. uhttp://lter.konza.ksu.edu/content/mammals-konza-prairie-research-natural-area-kansas00856nas a2200145 4500008004100000245006300041210006300104300001300167490000700180520038800187653001300575653001200588100001600600856009400616 1984 eng d00aMale dickcissel behavior in primary and secondary habitats0 aMale dickcissel behavior in primary and secondary habitats a672 -6800 v963 aIn this paper I document the difference in habitat quality between primary oldfield habitat and secondary prairie habitat and its relationship with arrival times of males and females and female/male sex ratios. Primary habitat is defined as higher quality habitat where individual density is high, while secondary habitats have lower quality habitat and low individual density
10abehavior10ahabitat1 aFinck, E.J. uhttp://lter.konza.ksu.edu/content/male-dickcissel-behavior-primary-and-secondary-habitats00781nas a2200145 4500008004100000245004400041210004400085300000900129490000700138520037600145653000900521653001600530100001600546856007300562 1984 eng d00aObservations at a northern harrier nest0 aObservations at a northern harrier nest a24 -0 v353 aOn 15 May 1982 while I was rope-dragging in search of Mourning Dove (Zenaida macroura) nests, I discovered a Northern Harrier (Circus cyaneus) nest with six eggs on the Konza Prairie Research Natural Area in a watershed that had not been burned since the spring of 1980. The nest was the first Northern Harrier nesting record for Konza Prairie and for Geary County
10anest10aObservation1 aFinck, E.J. uhttp://lter.konza.ksu.edu/content/observations-northern-harrier-nest01573nas a2200169 4500008004100000245009600041210006900137300001100206490000700217520098300224653001101207653002201218100001801240700001801258700001601276856011101292 1983 eng d00aEffects of fire on rodents in tallgrass prairie of the Flint Hills region of eastern Kansas0 aEffects of fire on rodents in tallgrass prairie of the Flint Hil a49 -560 v153 aFire in tallgrass prairie reduces the amount of litter on the soil surface and enhances primary productivity in the first year following a fire. If the site is left unburned and ungrazed, a gradual increase in litter depth and a decrease in primary productivity occurs during the first few years following a fire. Based on these habitat changes and the habitat selection and food habits of prairie rodents, e.g., Peromyscus maniculatus, Reithrodontomys megalotis and Microtus ochrogaster, major shifts in rodent density should occur the first few years following a fire. We trapped four sites, each representing a different year of a 4-year cycle of burning, to analyze the effect of periodic fires on rodent populations in the tallgrass prairie. We also trapped a study site that is burned annually for comparison of the effect of annual fires to the 4-year cycle. Data are also presented to examine the effects of time since fire and fire frequency on rodent population
10arodent10atallgrass prairie1 aKaufman, D.W.1 aKaufman, G.A.1 aFinck, E.J. uhttp://lter.konza.ksu.edu/content/effects-fire-rodents-tallgrass-prairie-flint-hills-region-eastern-kansas00553nas a2200133 4500008004100000245009100041210006900132260004300201300001000244490002100254653001300275100001600288856011500304 1983 eng d00aMale behavior, territory quality and female choice in the dickcissel (Spiza americana)0 aMale behavior territory quality and female choice in the dickcis aManhattan, KSbKansas State University a1 -790 vPhD Dissertation10abehavior1 aFinck, E.J. uhttp://lter.konza.ksu.edu/content/male-behavior-territory-quality-and-female-choice-dickcissel-spiza-americana01497nas a2200157 4500008004100000245007600041210006900117260006900186300001100255520090700266653002201173100002001195700001601215700001501231856009301246 1983 eng d00aSuccess in a secondary habitat: the dickcissel in the tallgrass prairie0 aSuccess in a secondary habitat the dickcissel in the tallgrass p aKalamazoo, MIbDepartment of Biology Western Michigan University a47 -493 aThe dickcissel (Spiza americana) is the most abundant species in the breeding-season community of the tallgrass prairie in the Flint Hills of Kansas. Yet prairie is not the most preferred habitat; nesting density is as much as five times greater in mature oldfield communities. As a result of low nest density, prairie dickcissels suffer a significantly higher frequency as well as intensity of parasitism by the brown -headed cowbird (Molothrus ater) which reduces the production of young because of the removal of host eggs by the female cowbird. Prairie populations with low nest density, on the other hand, have a decreased chance of nests being destroyed by predators. Thus there is an offsetting balance between the two major factors affecting nest success so that the daily survival rate and the production of young in a prairie nest are no different from a nest in the oldfield community
10atallgrass prairie1 aZimmerman, J.L.1 aFinck, E.J.1 aBrewer, R. uhttp://lter.konza.ksu.edu/content/success-secondary-habitat-dickcissel-tallgrass-prairie00771nas a2200169 4500008004100000245009300041210006900134300001100203490000700214520020600221653000900427653001100436653000900447653001200456100001600468856011700484 1982 eng d00aHail damage to breeding birds and their nests on the Konza Prairie Research Natural Area0 aHail damage to breeding birds and their nests on the Konza Prair a29 -300 v333 aThis report documents damage caused by high winds and hail to breeding birds and their nests on Konza Prairie Research Natural Area about 12 km south of Manhattan, KS in Riley and Geary Counties
10abird10adamage10aHail10aprairie1 aFinck, E.J. uhttp://lter.konza.ksu.edu/content/hail-damage-breeding-birds-and-their-nests-konza-prairie-research-natural-area