Publications

16. Prado K, Holland BL, Gardener BM, Lundquist P, Santiago JP, VanBuren R, Rhee SY (2025) Enhancing crop resilience against drought and heat stress through an integrated field-to-lab-to-field research paradigm. Journal of Experimental Botany, 76(16): 4395-4413 (Darwin Review)

15. Walters J, Fisher R, Sharkey TD, Isaacs R, Santiago JP (2025) Extreme heat affects blueberry pollen nutrition: consequences for bee health and plant fertilization. Scientific Reports, 15: 6249

14. The SV, Santiago JP, Pappenberger C, Hammes UZ, Tegeder M (2024) UMAMIT44 is a key player in glutamate export from Arabidopsis chloroplasts. The Plant Cell, 36:1119-1139

13. Lucas M, Santiago JP, Chen J, Guber A, Kravchenko A (2023) The soil pore structure encountered by roots affects plant-derived carbon inputs and fate. New Phytologist 240(2): 515-528

12. Welker S, Pierre M, Santiago JP, Dutt M, Vincent C, Levy A (2022) Phloem transport limitation in Huanglongbing affected sweet orange is dependent on phloem-limited bacteria and callose. Tree Physiology, 42:379-390

11. Santiago JP, Soltani A, Bresson MB, Preiser AL, Lowry DB, Sharkey TD (2021) Contrasting anther glucose 6-phosphate dehydrogenase activities between two common bean (Phaseolus vulgaris) varieties suggest an important role in reproductive heat tolerance. Plant, Cell & Environment, 44: 2185-2199

10. Soltani A, Walter KA, Wiersma AT, Santiago JP, Quigley M, Chitwood D, Porch TG, Miklas P, McClean PE, Osorno JM, Lowry DB. (2021) The genetics and physiology of seed dormancy, a crucial trait in common bean domestication. BMC Plant Biology, 21: 1-17

9. Santiago JP, Ward JM, and Sharkey TD (2020) Phaseolus vulgaris SUT1.1 is a high affinity sucrose-proton co-transporter. Plant Direct 4: e00260

8. Santiago JP and Sharkey TD (2019) Pollen development at high temperature and role of carbon and nitrogen metabolites. Plant, Cell & Environment 42: 2759-2775

7. Santiago JP and Tegeder M (2017) Implications of nitrogen phloem loading for carbon metabolism and transport during Arabidopsis development. Journal of Integrative Plant Biology 59: 409-421

6. Santiago JP and Tegeder M (2016) Connecting source with sink: The role of Arabidopsis AAP8 in phloem loading of amino acids. Plant Physiology 171: 508-521

5. Santiago JP, Halteman W, and Smagula JM (2014) Determining optimum macro- and micronutrient leaf concentrations for lowbush blueberry (Vaccinium angustifoliuim Ait.) using the boundary line approach and quantile regression. Acta Horticulturae 1017: 505-514

4. Santiago JP, Dail DB, and Smagula JM (2014) Soil texture and lowbush blueberry (Vaccinium angustifolium Ait.) leaf nutrient concentration influences response to gypsum application. Acta Horticulturae 1017: 515-524

3. Santiago JP and Smagula JM (2013) Effects of nitrogen form and ratio on in vitro shoot multiplication and growth of lowbush blueberry (Vaccinium angustifolium Ait.). Acta Horticulturae 988: 129-135

2. Santiago JP and Smagula JM (2012) Gypsum rate evaluation for wild blueberry (Vaccinium angustifolium Ait.) soils. International Journal of Fruit Science 12:23-34

1. Santiago JP and Smagula JM (2012) Comparison of split or single application of gypsum for wild lowbush blueberry (Vaccinium angustifolium Ait.). International Journal of Fruit Science 12: 35-47