Franklin Harris scite author profile

Franklin Harris

2Publications

10Citation Statements Received

53Citation Statements Given

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Colorado State University

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Soil fertility interactions with Sinorhizobium-legume symbiosis in a simulated Martian regolith; effects on nitrogen content and plant health

et al. 2021

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Due to increasing population growth and declining arable land on Earth, astroagriculture will be vital to terraform Martian regolith for settlement. Nodulating plants and their N-fixing symbionts may play a role in increasing Martian soil fertility. On Earth, clover (Melilotus officinalis) forms a symbiotic relationship with the N-fixing bacteria Sinorhizobium meliloti; clover has been previously grown in simulated regolith yet without bacterial inoculation. In this study, we inoculated clover with S. meliloti grown in potting soil and regolith to test the hypothesis that plants grown in regolith can form the same symbiotic associations as in soils and to determine if greater plant biomass occurs in the presence of S. meliloti regardless of growth media. We also examined soil NH4 concentrations to evaluate soil augmentation properties of nodulating plants and symbionts. Greater biomass occurred in inoculated compared to uninoculated groups; the inoculated average biomass in potting mix and regolith (2.23 and 0.29 g, respectively) was greater than the uninoculated group (0.11 and 0.01 g, respectively). However, no significant differences existed in NH4 composition between potting mix and regolith simulant. Linear regression analysis results showed that: i) symbiotic plant-bacteria relationships differed between regolith and potting mix, with plant biomass positively correlated to regolith-bacteria interactions; and, ii) NH4 production was limited to plant uptake yet the relationships in regolith and potting mix were similar. It is promising that plant-legume symbiosis is a possibility for Martian soil colonization.

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Responses of Engelmann spruce to inoculation with Leptographium abietinum, a symbiotic fungus of the North American spruce beetle

et al. 2020

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Symbiotic fungi associated with tree-killing bark beetles can alter host-tree physiology with consequences for tree survival, and symbiont genetic variation and environmental variability may impact these interactions. Here, we test whether multiple genetically distinct isolates of a symbiotic fungus (Leptographium abietinum (Peck) M.J. Wingf.) associated with North American spruce beetle (Dendroctonus rufipennis (Kirby, 1837)) vary in their ability to manifest defensive responses consistent with disease symptoms in seedlings of Engelmann spruce (Picea engelmannii Parry ex Engelm.), a primary host-tree species for the beetle–fungus complex in North America. Our experiments incorporate variation in both host-tree water availability and host defenses (phloem monoterpene concentration). Three central findings emerged: (i) isolates varied considerably in their effects on host trees — inoculation with L. abietinum isolates from Colorado caused significantly larger phloem lesions than isolates from Wyoming, though all isolates caused phloem oxidation; (ii) neither water availability nor spruce phloem monoterpene concentrations impacted lesion formation; and (iii) both inoculation with L. abietinum and water deficit inhibited the formation of callus tissue at wound sites. We conclude that L. abietinum isolates vary in their virulence and that inoculation is not lethal but may benefit beetles by altering tree defensive responses.

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Franklin Harris

Soil fertility interactions with Sinorhizobium-legume symbiosis in a simulated Martian regolith; effects on nitrogen content and plant health

Responses of Engelmann spruce to inoculation with Leptographium abietinum, a symbiotic fungus of the North American spruce beetle

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