Fungal symbionts alter plant responses to global change Kivlin, S. N. American Journal of Botany 100(7):1445 20130101 0002-9122
Experimental warming decreases arbuscular mycorrhizal fungal colonization in prairie plants along a Mediterranean climate gradient Hannah Wilson PeerJ 4:e2083 PeerJ Inc. 20160601 2167-8359
Does warming by open-top chambers induce change in the root-associated fungal community of the arctic dwarf shrub Cassiope tetragona (Ericaceae)? Lorberau, Kelsey Erin Mycorrhiza 27(5):513 20170701 0940-6360
Bascompte, J., Didham, R., Tylianakis, J., Wardle, D., CSIC, E. D., Tylianakis, J. M., & ... Bascompte, J. (n.d). Global change and species interactions in terrestrial ecosystems. Ecology Letters, 11(12), 1351-1363. Talks about the colonization of plants by arbuscular mycorrhizal and ectomycorrhizal fund. Declines with N deposition (changes on P levels and plant growth) and higher CO2 have an increase on colonization (AMF) and has little effects on EMF.
Kim, Y., Gao, C., Zheng, Y., He, X., Yang, W., Chen, L., & ... Guo, L. (2015). Arbuscular mycorrhizal fungal community response to warming and nitrogen addition in a semiarid steppe ecosystem. Mycorrhiza, 25(4), 267-276. doi:10.1007/s00572-014-0608-1 Goes over how increase temperatures and increase temperatures with additional N significantly increases AM fungal sore densities
Rillig, M. C., Wright, S. F., Shaw, M. R., & Field, C. B. (2002). Artificial climate warming positively affects arbuscular mycorrhizae but decreases soil aggregate water stability in an annual grassland. Oikos, 97(1), 52. Goes over how increase temperatures does really increase anything but colonization of roots in warmed plots.
Owen K., A., David, S., Alastair H., F., Susan, J., John K., H., Catherine, C., & ... Angela, H. (2009). Temperature Dependence of Respiration in Roots Colonized by Arbuscular Mycorrhizal Fungi. The New Phytologist, (1), 188. doi:10.1111/j.1469-8137.2008.02727.x Goes over how individual whole root dry mass is slightly bigger in colonized roots.
Mayra E. Gavito, a., Pål A. Olsson, a., Hervé Rouhier, a., Almudena Medina-Peñafiel, a., Iver Jakobsen, a., Albert Bago, a., & Concepción Azcón-Aguilar, a. (2005). Temperature Constraints on the Growth and Functioning of Root Organ Cultures with Arbuscular Mycorrhizal Fungi. The New Phytologist, (1), 179. Goes over how there is a range of temperature that reduces AMF growth
Diversity of arbuscular mycorrhizal fungal spore communities and its relations to plants under increased temperature and precipitation in a natural grassland Sun, XiuFeng Chinese Science Bulletin 58(32):4109 20131101 1001-6538
De Frenne, P., de la Pena, E., Maes, S. L., De Frenne, P., de la Pena, E., Gruwez, R., & ... Hermy, M. (n.d). Effects of enhanced nitrogen inputs and climate warming on a forest understorey plant assessed by transplant experiments along a latitudinal gradient. Plant Ecology, 215(8), 899-910.
Barrett, G., Campbell, C. D., & Hodge, A. (2014). The direct response of the external mycelium of arbuscular mycorrhizal fungi to temperature and the implications for nutrient transfer. Soil Biology And Biochemistry, 78109-117. doi:10.1016/j.soilbio.2014.07.025
Didn't fully understand the last three just here if you wanna check them out. Just a side note i’m not sure if you wanted to go over how high temperatures/ or water loss will change how fast the plant will grow. This will then change the amount of sugar plants have changing how well they work together.
