49. Wang CW, Chen HW, Sato T, Nakazawa T* (2025)
When can multiple parasites with complex life cycles coexist under conflicts of host manipulation?
International Journal for Parasitology, in press. [Open Access]
48. Lee YD, Yokoi T, Nakazawa T* (2024)
A pollinator crisis can decrease plant abundance despite pollinators being herbivores at the larval stage.
Scientific Reports 14: 18523. [Open Access]
47. Nakazawa T*, Matsumoto TK, Katsuhara KR (2024)
When is lethal deceptive pollination maintained? A population dynamics approach.
Annals of Botany 134: 665–682. [Open Access]
46. Nakazawa T*, Katayama N, Utsumi S, Yamawo A, Yamamichi M (2023)
When to help juveniles, adults, or both: analyzing the evolutionary models of stage-structured mutualism.
Frontiers in Ecology and Evolution 11: 1138138. [Open Access]
45. Nakazawa T*, Hsu Y-H, Chen I-C (2023)
Why sex matters in phenological research.
Oikos 2023: e09808. [Editor's choice] [Cover photo] [Open Access]
44. Nakazawa T*, Kishi S (2023)
Pollinator sex matters in competition and coexistence of co-flowering plants.
Scientific Reports 13: 4497. [Open Access]
43. Nakazawa T* (2020)
Incorporating ontogenetic niche shifts into hybrid community dynamics.
In: Mougi A (ed) Diversity of functional traits and interactions: perspectives on community dynamics. Springer Nature. pp. 3–18.
42. Nakazawa T*, Katayama N (2020)
Stage-specific parasitism by a mutualistic partner can increase the host abundance.
Frontiers in Ecology and Evolution 8: 602675. [Open Access]
41. Nakazawa T* (2020)
Species interaction: revisiting its terminology and concept.
Ecological Research 35: 1106-1113. [Open Access] [Top Downloaded Article]
40. Chou C-C, Nakazawa T* (2020)
Idea Paper: Incorporating sexual differences in dispersal decision making into metapopulation theory.
Ecological Research 35: 591-594. [Invited for Special Feature]
39. Nakazawa T* (2020)
A perspective on stage-structured mutualism and its community consequences.
Oikos 129: 297–310. [Open Access] [Selected as Editor's Choice], [Introduced by Dynamic Ecology]
38. Kao MT, Liu JN, Cheng HC, Nakazawa T* (2020)
Social signatures in echolocation calls of a leaf-roosting bat, Kerivoula furva.
Bioacoustics 29: 461–480.
37. Ke PJ, Nakazawa T* (2018)
Ontogenetic antagonism–mutualism coupling: perspectives on resilience of stage-structured communities.
Oikos 127: 353–363.
36. Nakazawa T, Liu SYV*, Sakai, Y, Araki KS, Tsai HT, Okuda N (2018)
Spatial genetic structure and body size divergence in endangered Gymnogobius isaza in ancient Lake Biwa.
Mitochondrial DNA Part A 29: 756-764.
35. Wang YJ, Nakazawa T, Ho CK* (2017)
Warming impact on herbivore population composition affects top-down control by predators.
Scientific Reports 7: 941.
34. Nakazawa T* (2017)
Individual interaction data are required in community ecology: A conceptual review of the predator–prey mass ratio and more.
Ecological Research 32: 5–12. [Invited review for 20th Miyadi Award, Ecological Society of Japan], [Recommended by F1000]
33. Tsai CH, Hsieh CH, Nakazawa T* (2016)
Predator–prey mass ratio revisited: Does preference of relative prey body size depend on predator body size?
Functional Ecology 30: 1979-1987. [Nominated for the British Ecological Society's Haldane Prize]
32. Nakazawa T*, Huang CG (2016)
Two-species metacommunity dynamics mediated by habitat preference.
Oikos 125: 1334-1341.
31. Chou C-C, Iwasa Y, Nakazawa T* (2016)
Incorporating an ontogenetic perspective into evolutionary theory of sexual size dimorphism.
Evolution 70: 369-384.
30. Tsai C-H, Lin Y-C, Wiegand T, Nakazawa T, Su S-H, Hsieh C-H, Ding T-S* (2015)
Individual species-area relationship of woody plant communities in a heterogeneous subtropical monsoon rainforest.
PLoS ONE 10: e0124539.
29. Nakazawa T* (2015)
Introducing stage-specific spatial distribution into the Levins metapopulation model.
Scientific Reports 5: 7871.
28. Nakazawa T* (2015)
Ontogenetic niche shifts matter in community ecology: a review and future perspectives.
Population Ecology 57: 347-354. [Invited review for Young Scholar Award, The Society of Population Ecology]
27. 仲澤剛史*、奥田昇 (2014)
生物標本を利用した湖沼生態系の復元.
占部城太郎(編集) 湖沼近過去調査法―より良い湖沼環境と保全目標設定のために―.共立出版、東京、日本、pp193-214.
26. Nakazawa T* (2014)
A dynamic resilience perspective toward integrated ecosystem management: biodiversity, landscape, and climate.
In: (Okuda N ed) Springer Briefs in Biology: Biodiversity in Aquatic Systems and Environments: Lake Biwa. Springer Japan, Tokyo, Japan, pp69-91.
25. Nakazawa T*, Ohba S, Ushio M (2013)
Predator-prey body size relationships when predators can consume prey larger than themselves.
Biology Letters 9: 20121193.
24. Kishi S*, Nakazawa T (2013)
Analysis of species coexistence co-mediated by resource competition and reproductive interference.
Population Ecology 55: 305–313.
23. Briones JC, Tsai CH, Nakazawa T*, Sakai Y, Papa RD, Hsieh CH, Okuda N (2012)
Long-term changes in the diet of Gymnogobius isaza from Lake Biwa, Japan: effects of body size and environmental prey availability.
PLoS ONE 7: e53167.
22. Araki KS*, Nakazawa T, Kawakita A, Kudoh H, Okuda N (2012)
Development of nine markers and characterization of the microsatellite loci in the endangered Gymnogobius isaza (Gobiidae).
International Journal of Molecular Sciences 13: 5700-5705.
21. Nakazawa T*, Yamanaka T, Urano S (2012)
Model analysis for plant disease dynamics co-mediated by herbivory and herbivore-borne phytopathogens.
Biology Letters 8: 685-688.
20. Nakazawa T, Doi H* (2012)
A perspective on match/mismatch of phenology in community contexts.
Oikos 121: 489-495. [Cited by IPCC 5th Assessment Report 2014]
19. Nakazawa T, Ushio M, Kondoh M* (2011)
Scale dependence of predator–prey mass ratio: determinants and applications.
Advances in Ecological Research 45: 269-302.
18. Nakazawa T*, Tsai CH, Ishida N, Kato M (2011)
Annual variations in length-weight relationships of Gymnogobius isaza (Tanaka 1916) from Lake Biwa, Japan.
Journal of Applied Ichthyology 27: 1135-1136.
17. Nakazawa T* (2011)
Alternative stable states generated by ontogenetic habitat coupling in the presence of multiple resource use.
PLoS ONE 6: e14667.
16. Kuwamura M*, Nakazawa T (2011)
Dormancy of predators dependent on the rate of variation in prey density.
SIAM Journal on Applied Mathematics 71: 169-179.
15. Nakazawa T* (2011)
Ontogenetic niche shift, food-web coupling, and alternative stable states.
Theoretical Ecology 4: 479-492.
14. Nakazawa T* (2011)
The ontogenetic stoichiometric bottleneck stabilizes herbivore-autotroph dynamics.
Ecological Research 26: 209-216.
13. Nakazawa T*, Kuwamura M, Yamamura N (2011)
Implications of resting eggs of zooplankton for the paradox of enrichment.
Population Ecology 53: 341-350.
12. Nakazawa T*, Sakai Y, Hsieh CH, Koitabashi T, Tayasu I, Yamamura N, Okuda N (2010)
Is the relationship between body size and trophic niche position time-invariant in a predatory fish? First stable isotope evidence.
PLoS ONE 5: e9120.
11. Morehouse NI*, Nakazawa T, Booher CM, Jeyasingh PD, Hall MD (2010)
Sex in a material world: Why the study of sexual reproduction and sex-specific traits should become more nutritionally-explicit.
Oikos 119: 766-778.
10. Hsieh CH*, Yamauchi A, Nakazawa T, Wang WF (2010)
Fishing effects on age and spatial structures undermine population stability of fishes.
Aquatic Sciences 72: 165-178.
09. Nakazawa T*, Miki T, Namba T (2010)
Influence of predator-specific defense adaptation on intraguild predation.
Oikos 119: 418-427.
08. Nakazawa T*, Ohgushi T, Yamamura N (2009)
Resource-dependent reproductive adjustment and the stability of consumer-resource dynamics.
Population Ecology 51: 105-113.
07. Kuwamura M*, Nakazawa T, Ogawa T (2009)
A minimum model of prey-predator system with dormancy of predators and the paradox of enrichment.
Journal of Mathematical Biology 58: 459-479.
06. Nakazawa T*, Yamamura N (2009)
Theoretical considerations for the maintenance of interspecific brood care by a Nicaraguan cichlid fish: behavioral plasticity and spatial structure.
Journal of Ethology 27: 67-73.
05. Miki T*, Nakazawa T, Yokokawa T, Nagata T (2008)
Functional consequences of viral impacts on bacterial communities: a food-web model analysis.
Freshwater Biology 53: 1142-115.
04. Nakazawa T*, Kuwamura M, Shimoda M (2007)
A mathematical model of prey-predator system with dormancy of predator.
Research Institute for Mathematical Sciences Kokyuroku 1556: 123-130.
03. Nakazawa T*, Ishida N, Kato M, Yamamura N (2007)
Larger body size with higher predation rate.
Ecology of Freshwater Fish 16: 362-372.
02. Nakazawa T*, Yamamura N (2007)
Breeding migration and population stability.
Population Ecology 49: 101-113.
01. Nakazawa T*, Yamamura N (2006)
Community structure and stability analysis for intraguild interactions among host, parasitoid, and predator.
Population Ecology 48: 139-149.