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United States Department of Agriculture

Agricultural Research Service

Research Project: Alternatives to methyl bromide soil fumigation for vegetable and floriculture production

Location: Subtropical Plant Pathology Research

Title: Resilient populations of root fungi occur within five tomato production systems in Southeast Florida

Authors
item Rasmann, Christopher -
item Graham, Jim -
item Chellemi, Daniel
item Datnoff, Lawrence -
item Larsen, John -

Submitted to: Applied Soil Ecology
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: March 15, 2009
Publication Date: July 1, 2009
Citation: Rasmann, C., Graham, J., Chellemi, D.O., Datnoff, L.E., Larsen, J. 2009. Resilient populations of root fungi occur within five tomato production systems in Southeast Florida. Applied Soil Ecology. 43:22-31.

Interpretive Summary: This study has demonstrated that AM fungi are capable of persisting in and recovering from land management practices that are widely considered detrimental to their activities. The impact on the ability of these fungi to form mycorrhizal associations with host plants depended on the time-scale over which the effects of management practices endured. In this subtropical environment, management tactics that created conditions that persisted in the soil, such as abundant available P from fertilization, resulted in a field-wide suppression of colonization while soil tillage had only a transitory effect on the IP and capability of AM fungi to colonize host roots. As a group, non-AM fungal root endophytes were also persistent under intensive agricultural management. Results indicated that the conditions that favored higher infectivity were the same for these endophytes and AM fungi. Future work should consider whether these groups of fungi share similar capacity for resisting stressful conditions in other climatic and edaphic environments as was demonstrated in this study.

Technical Abstract: Farming practices are known to impact arbuscular mycorrhizal (AM) fungi and other soil microbial communities in agroecosystems. The effects of divergent land management strategies on the incidence and infectivity of AM and other fungal root endophytes were evaluated in a 5-year tomato (Lycopersicon esculentum Mill.) cropping systems study. Two of the five treatments utilized farming practices considered detrimental to AM fungal populations, including the tillage-mediated elimination of vegetation and soil fumigation. The remaining three treatments used practices thought to be more conducive to the presence of AM fungi, including organic production methods, bahiagrass pasture and undisturbed weed fallow. In years four and five of the study tomato roots and rhizosphere soil were collected. Roots were examined for colonization by AM and other fungal root endophytes, and rhizosphere soil was assayed to measure the amount of infective inoculum present based on maize (Zea mays L.) seedling infection. Tomato roots and rhizosphere soil were also analyzed for the AM fungal fatty acid biomarker 16:1'5c. Sudangrass (Sorghum sudanense (Piper) Stapf) trap cultures were initiated using field soil to assess the diversity of AM fungal spore morphotypes. Soil disturbance and phosphorus (P) levels had the greatest influences on AM fungal infectivity and abundance. All plots had high levels of available soil P, resulting in low levels of colonization across treatments. Bahiagrass (Paspalum notatum Flugge) pasture was the only treatment without repeated, intensive soil mixing, and had the highest level of field root colonization by AM fungi. Field roots were more heavily colonized by other fungal endophytes than by AM fungi in all treatments. Tomato roots from organic plots were apparently unique in encouraging extensive colonization by Microdochium bolleyi (R. Sprague) de Hoog & Herm.-Nijh. Infection by AM and other fungal root endophytes were positively correlated in all studies. Flooding and a shortened growing season likely contributed to reduced infection potentials in all treatments except for organic plots in year five compared to year four. Areas of high disturbance from frequent tillage had the lowest levels of primary inoculum, but recovery to levels comparable to less disturbed treatments occurred after a single season of host root growth. Diversity of AM fungal morphotypes was typical of agricultural fields, with at least 10 spore morphotypes present across treatments; Glomus spp. were the dominant spore type recovered in all treatments.

Last Modified: 7/31/2014
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