Jornada Bibliography
Export 3612 results:
Filters: Target='_blank' is [Clear All Filters]
Multiangle data from CHRIS/Proba for determination of canopy structure in desert rangelands. International Geoscience and Remote Sensing Symposium (IGARSS 2004). VII:4742-4745.
.
2004. A Multi-Angle Approach to Mapping Forest and Shrub Canopy Structure in the Southwestern United States. NASA Biodiversity and Terrestrail Ecosystem Joint Workshop.
.
2006. Mowing versus fire on expansion of black-tailed prairie dogs reintroduced into Chihuahuan Desert grasslands. 87th Annual Meeting, Ecological Society of America. :352.
.
2002. A moving virtual boundary (VB trademark). 6th Symposium of the Natural Resources of the Chihuahuan Desert. :Abstractp.16.
.
2004. Movements during colony founding by queens of the honeypot ant (Myrmecocystus mimicus Wheeler). American Midland Naturalist. 144:439-444.
.
2000. Movement and spatial proximity patterns of rangeland-raised Raramuri Criollo cow-calf pairs. Journal of Animal Science Supplement.
.
2016. Movement and Cow-calf proximity patterns of Raramuri Criollo vs. Angus-crossbred nursing cows grazing Chihuahuan Desert rangeland in summer. 72nd Society for Range Management International Meeting.
.
2019. Movement, activity, and landscape use patterns of heritage and commercial beef cows grazing Chihuahuan Desert rangeland. Journal of Arid Environments. 199:104704.
.
2022. Mourning dove foods in semi-desert, south-central New Mexico. Journal of Wildlife Management. 38:941-944.
.
1974. Mountain Snow Equals River Flow. New Mexico State University Research & Resources. Spring:22-23.
.
2009. Mountain or mesa range; a comparison of costs and returns determines relative value of each. The American Hereford Journal. 44:104-105.
.
1953. Mother-Offspring Interactions in Raramuri Criollo Cattle on New Mexico and Chihuahua (Mexico) Rangelands. Society for Range Management Meeting. January 28-February 2, 2018
.
2018. Mosses new to New Mexico. Evansia. 30(3):105-109.
.
2013. Morphology of the argillic horizon in desert soils of southern New Mexico. Soil Science. 106:6-15.
.
1967. Morphology and isotope heterogeneity of Late Quaternary pedogenic carbonates: implications for paleosol carbonates as paleoenvironmental proxies. Palaeogeography, Palaeoclimatology, and Palaeoecology. 166:293-317.
.
2001. Morphologies and stable and radiogenic isotope composition of pedogenic carbonate in Late Quaternary relict and buried soils, New Mexico: an integrated record of pedogenic overprinting. Journal of Sedimentary Research. 72:809-822.
.
2003. Morphological variation in creosotebush, Larrea tridentata: effects on ecosystem properties. Proceedings: symposium on shrubland ecosystem dynamics in a changing environment. Gen. Tech. Rep. INT-GTR-338:195-198.
.
1995. Morphological characteristics of shrub-coppice dunes in desert grasslands of southern New Mexico derived from scanning LIDAR. Remote Sensing of Environment. 74:26-44.
.
2000. Morphological and genetic sequences of carbonate accumulation in desert soils. Soil Science. 101:347-360.
.
1966. A more or less dusty future? Ecological Society of America Meeting.
.
2018. Monthly variation in carotene content of two important range grasses, Sporobolus flexuosus and Bouteloua eriopoda. Journal of Agricultural Research. 58:695-99.
.
1939. The monthly protein and phosphorus contents of two important range grasses of Southern New Mexico. Journal of Animal Science. 4:298-305.
.
1945. Monitoring to detect change on rangelands: physical, social, and economic/policy drivers. African Journal of Range and Forage Science. 21:115-121.
.
2004. .
2010. Monitoring protocols: options, approaches, implementation, benefits. 69th Annual Meeting of the Society for Range Management.
.
2016. Monitoring protocols: Options, approaches, implementation, benefits. Rangeland Systems. :527-567.
.
2017. Monitoring plant community change at the Jornada Experimental Range: 100 Years of quadrat sampling. Society for Rangeland Meetings. #92
.
2020. Monitoring physical and biological properties at the Sevilleta LTER using remote sensing. International Association of Hydrological Science. IAHS Publication No. 267:234-236.
.
2000. Monitoring methodology for pasture degradation and restoration. Proceedings of the International Symposium on Silvopastoral Systems/Agroforestry and Livestock. :2-6.
.
2001. .
2005. .
2005. Monitoring grassland, shrubland and savanna ecosystems: LCTA versus an integrated soil and vegetation monitoring protocol. 86th Annual Meeting, Ecological Society of America. :322.
.
2001. Monitoring ecological processes for restoration projects. Journal of Nature Conservation. 14:161-171.
.
2006. Monitoring changes in stressed ecosystems using spatial patterns of ant communities. Environmental Monitoring Assessment. 51:201-210.
.
1998. Monitoring and assessment based on ecological sites. Rangelands. 32(6):60-64.
.
2010. Monitoring and assessing global impacts of roads and off-road vehicle traffic. Society for Range Management. 63rd Society for Range Management
.
2010. Monitoring agroecosystem productivity and phenology at a national scale: A metric assessment framework. Ecological Indicators. 131
.
2021. Mongolia' s rangelands: Is livestock production the key to the future? Frontiers in Ecology and the Environment. 6:386-391.
.
2008. Molecular markers for addressing the genetic consequences of fragmentation on black grama (Bouteloua eriopoda) grasslands. 97th Ecological Society of America Meeting. PS 105-200.
.
2012. Molecular fluorescence spectroscopy: Identification of plants from extract solutions. 30th Annual Meeting, Federation of Analytical Chemistry and Spectroscopy Societies. :124.
.
2003. Moisture and temperature effects on emergence and initial growth of two range grasses. Agronomy Journal. 61:628-631.
.
1969. Modularity and genericness in plant and ecosystem models. Ecological Modelling. 94:7-16.
.
1997. Modifying landscape connectivity by reducing wind driven sediment redistribution, northern Chihuahuan Desert, USA. Aeolian Research. 17:129-137.
.
2015. Modifying connectivity to promote state change reversal: the importance of geomorphic context and plant–soil feedbacks. Ecology. 101(9):e03069.
.
2020. Modified centroid for estimating sand, silt, and clay from soil texture class. Soil Science Society of America Journal. 81:578-588.
.
2017. Modelling wind erosion and dust emission on vegetated surfaces. Spatial Modeling of the Terrestrial Environment. :137-156pp.
.
2004. Modelling whole-plant allocation in relation to carbon and nitrogen supply: Coordination versus optimization: Opinion. Plant and Soil. 185:65-74.
.
1996. Modelling vegetation change and land degradation in semiarid and arid ecosystems: an integrated hierarchical approach. Advances in Environmental Monitoring and Modeling. 1:1-29.
.
2001. Modelling stomatal conductance of field-grown sunflower under varying soil water status and leaf environment: comparison of three models of response to leaf environment and coupling with ABA-based model of resposne to soil drying. Plant, Cell, and Environment. 25:1423-1434.
.
2002. Modelling emergent patterns of dynamic desert ecosystems. Ecological Monographs. 84(3):373-410.
.
2014.