Barbour MG, Cunningham GL, Oechel WC, Bamberg SA (1977) Growth and development, form and function. In: Mabry TJ, Hunziker JH, Difeo DR Jr (eds) Creosote Bush: Biology and Chemistry of Larrea in New World Deserts. US/IBP Synthesis Series 6. Dowden, Hutchinson and Ross, Inc., Strudsburg PA, pp 48–91
Google Scholar
Belsky AJ (1986) Does herbivory benefit plants? A review of the evidence. Am Nat 127:870–892
Google Scholar
Brower JE, Zar JH (1984) Field and Laboratory Methods for General Ecology. Wnt. C. Brown Publishers, Dubuque, IA
Google Scholar
Chew RM (1961) Ecology of the spiders of a desert community. J New York Entomol Soc 69:5–41
Google Scholar
Cox CS, McEvoy PB (1983) Effect of summer moisture stress on the capacity of transy ragwort (Senecio jacobaea) to compensate for defoliation by cinnabar moth (Tyria jacobaeae). J Appl Ecol 20:225–234
Google Scholar
Crawford CS, Gosz JR (1982) Desert ecosystems: their resources in space and time. Envir Conserv 9:181–195
Google Scholar
Cunningham GL, Syvertsen JP, Reynolds JF, Willson JM (1979) Some effects of soil-moisture availability on above-ground production and reproductive allocation in Larrea tridentata (DC) Cov. Oecologia 40:113–123
Google Scholar
Denno RF, McClure MS (1983) Variable Plants and Herbivores in Natural and Managed Systems. Academic Press, New York, NY
Google Scholar
Dina SJ, Kilkoff LG (1973) Effect of plant moisture stress on carbohydrate and nitrogen content of bit sagebrush. J Range Manag 26:207–209
Google Scholar
Duisberg PC (1952) Some relationships between xerophytism and the content of resin, nordihydroguaiaretic acid, and protein of Larrea divaricata Cov. Plant Physiol 27:769–777
Google Scholar
Elkins NZ, Sabol GV, Ward TJ, Whitford WG (1986) The influence of subterranean termites on the hydrological characteristics of a Chihuahuan Desert ecosystem. Oecologia 68:521–528
Google Scholar
Fennah RG (1965) The influence of environmental stress on the Cacao tree in determining feeding sites of Caco thrips Selenothrips rubricinetus (Giard), on leaves and pods. Bull Entomol Res 56:333–349
Google Scholar
Greenfield MD, Shelly TE, Downum KR (1987) Variation in host-plant quality: implications for territoriality in a desert grasshopper. Ecology 68:828–838
Google Scholar
Haglund BM (1980) Proline and valine: cues which stimulate grasshopper herbivory during drought stress. Nature 288:697–698
Google Scholar
Hocking RR, Pendleton OJ (1983) The regression dilemma. Communications in statistics. Theory Meth 12:497–527
Google Scholar
Hsiao TS, Kirkland RL (1973) Demographic studies of sagebrush insects as functions of various environmental factors. US/IBP Desert Biome Res Memo 73:28
Google Scholar
Huitema BE (1980) The analysis of covariance and alternatives. John Wiley and Sons, Inc., New York, NY
Google Scholar
Hurd PD, Linsley EG (1975) Some insects sother than bees associated with Larrea tridentata in the southwestern United States. Proc Entomol Soc Wash 77:100–121
Google Scholar
Jefferies MJ, Lawton JH (1984) Enemy free space and the structure of ecological communities. Biol J Linnean Soc 23:269–286
Google Scholar
Lawton JH (1983) Plant architecture and the diversity of phytophagous insects. Ann Rev Entomol 28:23–29
Google Scholar
Lewis AC (1984) Plant quality and feeding: effects of sunflower condition on preference and performance of Melanoplus differentialis. Ecology 65:836–843
Google Scholar
Lewis T (1973) Thrips, their biology, ecology, and economic importance. Academic Press, New York, NY
Google Scholar
Lightfoot DC, Whitford WG (1987) Variation in insect densities on desert cresotebush: is nitrogen a factor? Ecology 68:547–557
Google Scholar
Louda SM (1982) Distribution ecology: variation in plant recruitment over a gradient in relation to insect seed predation. Ecol Monog 52:25–41
Google Scholar
Louda SM (1986) Insect herbivory in respect to root-cutting and flooding stress on a native crucifer under field conditions. Acta Ecol 7:37–53
Google Scholar
Ludwig JA, Reynolds JF, Whitson PD (1975) Size-biomass relationships of several Chihuahuan Desert shrubs. Am Midl Nat 94:451–461
Google Scholar
McNaughton SJ (1979) Grazing as an optimization process: grass ungulate relationships in the Serengeti. Am Nat 113:691–703
Google Scholar
Miles PW, Aspinall D, Correll AT (1982) The performance of two chewing insects on water-stressed food plants in relation to changes in their chemical composition. Aust J Zool 30:347–355
Google Scholar
Mispagel ME (1974) An ecological analysis of insect populations on Larrea tridentata in the Mojave Desert. Thesis. Calif State Univ, Long Beach, CA
Google Scholar
Mispagel ME (1978) The ecology and bioenergetics of the acridid grasshopper Bootettix punctatus on creosote bush, Larrea tridentata in the northern Mojave Desert. Ecology 59:779–788
Google Scholar
Moran VC (1980) Interactions between phytophagous insects and their Opuntia hosts. Ecol Entomol 5:153–164
Google Scholar
Neufeld HS, Meinzer FC, Wisdom CS, Sharifi MR, Rundel PW, Neufeld M, Goldring Y, Cunningham GL (1988) Canopy architecture of Larrea tridentata (DC) Cov., a desert shrub: foliage orientation and direct beam interception. Oecologia 75:54–60
Google Scholar
Orians GH, Cates RG, Mares MA, Neff J, Rhoades DF, Rosenzweig ML, Simpson BB, Tomoff CS (1977) Resource utilization systems. In: Orians GH, Solbrig OT (eds) Convergent Evolution in Warm Deserts. US/IBP Synthesis Series. 3. Dowden, Hutchinson & Ross Inc. Stroudsburg, PA pp 164–244
Google Scholar
Price PW, Bouton EE, Gross P, McPheron BA, Thompson JN, Weis AE (1980) Interactions among three trophic levels: Influence of plants on interactions between insect herbivores and natural enemies. Ann Rev Ecol Syst 11:41–65
Google Scholar
Rhoades DF (1977) The antiherbivore chemistry of Larrea. In: Mabry TJ, Hunziker JH, Difeo DR Jr (eds) Creosote Bush: Biology and Chemistry of Larrea in New World Deserts. US/ IBP Synthesis Series 6. Dowden, Hutchinson & Ross. Stroudsburg, PA. pp 135–175
Google Scholar
Rhoades DF (1979) Evolution of plant chemical defense against herbivores. In: Rosenthal GA, Janzen DH (eds) Herbivores: Their interaction with secondary plant metabolites. Academic Press, New York, NY pp 3–45
Google Scholar
Rhoades DF (1983) Herbivore population dynamics and plant chemistry. In: Denno RF, McClure MS (eds) Variable Plants and Herbivores in Natural and Managed Systems. Academic Press, New York, NY pp 155–220
Google Scholar
Rhoades DF, Cates RG (1976) Toward a general theory of plant anti-herbivore chemistry. Rec Advan Phytochem 10:168–213
Google Scholar
Root RB (1967) The niche exploitation pattern of the blue-gray gnatcatcher. Ecol Monogr 37:317–350
Google Scholar
Rosenthal GA, Janzen DH (eds) (1979) Herbivores: Their Interactions With Secondary Plant Metabolites. Academic Press, New York, NY
Google Scholar
SAS Institute Inc (1985) SAS user's guide: Statistics, version 5 edition. SAS Institute Inc., Cary, NC
Google Scholar
Schultz JC (1978) Competition, predation, and the structure of phytophilous insect communities: A study of convergent evolution. Dissertation, Univ of Washington, Seattle, WA
Google Scholar
Schultz JC (1981) Adaptive changes in antipredator behavior of a grasshopper during development. Evolution 35:175–179
Google Scholar
Schultz JC, Otte D, Enders F (1977) Larrea as a habitat component for desert arthropods. In: Mabry TJ, Hunziker JH, Defeo DR Jr (eds) Creosote Bush: Biology and Chemistry of Larrea in New World Deserts. US/IBP Synthesis Series 6. Dowden, Hutchinson & Ross, Inc., Stroudsburg, PA
Google Scholar
Skujins J (1981) Nitrogen cycling in arid ecosystems. In: Clark FE, Roswell T (eds) Terrestrial Nitrogen Cycles. Ecol Bull 33:477–491
Stave ME, Shiff CJ (1981) Temporal segregation in North American desert Membracidae. Oecologia 51:408–411
Google Scholar
Steel RGD, Torrie JH (1980) Principles and Procedures of Statistics: A Biometrical Approach. Second edition. McGraw-Hill, Inc., New York, NY
Google Scholar
Terborgh J, Robinson S (1986) Guilds and their utility in ecology. In: Kikkawa J, Anderson DJ (eds) Community Ecology: Pattern and Process. Blackwell Scientific Publications, Victoria, Australia, pp 65–90
Google Scholar
Trichilo PJ, Leigh TF (1987) Influence of resource quality on the reproductive fitness of flower thrips (Thysanoptera: Thripidae). Ann Entomol Soc Am 81:64–70
Google Scholar
Waloff N, Richards OW (1977) The effect of insect fauna on growth, mortality, and natality of broom, Sarothamnus scoparius. J Appl Ecol 14:787–798
Google Scholar
West NE, Klemmedson JO (1978) Structural distribution of nitrogen in desert ecosystems. In: West NE, Skujins JJ (eds) Nitrogen in Desert Ecosystems US/IBP Synthesis Series 9. Dowden, Hutchinson & Ross, Inc., Stroudsburg, PA, pp 1–16
Google Scholar
White TCR (1969) An index to measure weather-induced stress of trees associated with outbreaks of psyllids in Australia. Ecology 50:905–909
Google Scholar
White TCR (1974) A hypothesis to explain outbreaks of looper caterpillars with special reference to populations of Selidosema suavis in a plantation of Pinus radiata in New Zealand. Oecologia 16:279–301
Google Scholar
Whitford WG (1986) Decomposition and nutrient cycling in desters. In: Whitford WG (ed) Pattern and Process in Desert Ecosystems. Univ of New Mexico Press, Albuquerque, NM pp 93–117
Google Scholar
Whitford WG, Creusere FM (1977) Seasonal and yearly fluctuations in Chihuahuan Desert lizard communities. Herpetologica 33:54–65
Google Scholar
Whitford WG, Reynolds JF, Cunningham GL (1987) How desertification affects nitrogen limtation of primary production on Chiahuahuan Desert watersheds. US Dept of Agric, Forest Serv Gen Tech Rept RM 150:143–153
Google Scholar