The Annual Difference: How a Four-Century Debate Between Confucian, Daoist

: In China, the precession of the equinoxes was conceptualized as an “annual difference” ( suicha 歲差 ) between the tropical and sidereal year. The idea was introduced in the fourth century, it saw universal acceptance from the eighth century on, and it was in the four centuries in between that it was tried, debated, and spread whilst a Mediterranean‑origin concept thereof arrived from India. Its four‑century journey from fringe idea to universal truth is a well‑studied point of interest in the history of astronomy. In this article, we will shift focus to the idea’s polymathic protagonists and epistemic foundations to explore how a scientific idea was born, debated, transmitted, and taught in Confucian commentary and, no less important, how politics, geography, regional schools, foreign transmission, and the Buddhist and Daoist religions shaped how thinkers engaged with it as indi‑ viduals and as communities. Inspired by the work of Chen Kanli and Randall Collins, the goal is to show that there is nothing simple or inexorable about how even an empirically useful tool of predic‑ tive astronomical modeling is received in the relevant expert community, as it is but one element in a complex network of people and ideas aligning and opposing in ever‑evolving strategies to assert relevance.


Introduction
Where science was once equated with "Taoists" in Chinese history (Sivin 1978), the last two decades have seen a shift towards thinking in terms of polymaths.Among the many recent studies on the topic, 1 two stand out for how they apply this, using the polymathy of their subjects to tell a more complex story.One is Goodman (2010), which explores how Xun Xu 荀勗 (ca.220-289) wove a common philosophy, aesthetic, and political strategy into his various intellectual engagements, from music and cataloging to metrology.The other is K. Chen (2015), which traces how individual personalities shaped the triad of omenology, Classical studies, and court politics over the longue durée in a process of endless alignment and opposition.Reminiscent of the "hybrids" described in Latour's  (1993) We Have Never Been Modern, the results are a reminder of the complexities of the "purification" of one continuous social, intellectual, and political fabric into tidy labels like "Taoists", let alone "science" and "religion".In this vein, and somewhat contrary to the theme of "the interaction of Daoist, Buddhist and Confucian thinkers", this article explores how a discrete problem in the history of astronomy was both the site of such an interaction and of more ephemeral yet pertinent distinctions.
The problem in question is the precession of the equinoxes, the timeline of which, for a historian of astronomy, begs for explanation.Introduced in the fourth century, the analogous concept would be alternately developed and ignored for two centuries, winning universal acceptance only after two further centuries of debate-all while a Mediterranean-origin analogue would arrive from India to be completely ignored.Fortunately, the groundwork for this choice of subject is well laid.As concerns technical matters and the history of debate, Miaofu He (1978) and Anjing Qu (2008) leave little left to say.As concerns the lives and works of the key protagonists, the same is true of M. Chen (2003) and, to an extent, Martin and Chaussende (2020).As concerns the human geography, social networks, and transmission lines between protagonists, Morgan (2021) provides the tools for a finer contextual analysis of the ensemble than previously possible.Lastly, Yutong Wang (2022)  has helped make further sense of the timeline by returning what has been long treated as a neat chapter in the history of astronomy to its context in Classical (i.e., "Confucian") exegesis and chronology.I will simply lean on the work of He, Qu, Chen, and Wang to flesh out the exploratory social and geographic treatment of precession in Morgan (2021), bringing additional texts and biographical details to bear particularly as the subject intersects with the "Three Teachings".
At its core, this article provides an overview of a technical concept, its epistemic bases, and its history up to the exegetical work of Kong Yingda 孔穎達 (574-648) and the mathematical work of his contemporary and ally, Li Chunfeng 李淳風 (602-670), in the early Tang (618-907).Following Yutong Wang (2022), I have structured this overview around the Classical evidence for precession and the commentarial tradition surrounding it, since the concept's history as a scientific construct only makes sense when we recognize that the "scientists" and "Confucians" were in dialogue, if not the same people. 2Where this article differs is in its focus on the people: on the individuals, groups, affiliations, and the question of how a seemingly neutral matter of mathematical modeling further brought these "scientists" and "Confucians" into dialogue with "Buddhists" and "Daoists".As we will see, the matter was not neutral, it involved some of the most important and divisive figures in the history of the "Three Teachings", and yet this had no obvious relation with how individuals lined up for, against, or in silence concerning precession.There were, I argue, greater structural forces at play.One was the articulation of the contradictory epistemologies of mathematical astronomy and Classical exegesis (Wang 2022).One was the fracture of mathematical astronomy into distinct regional networks and traditions in the Period of Disunion (220-589) (Morgan 2021).Another, inspired by the aforementioned approach of K. Chen  (2015) as read through the lens of Collins' (1998) The Sociology of Philosophies, is that the dividing line seems to have been in constant flux, as each generation redrew it in a bid to distinguish itself amid the realignment of various forces.
The (non-)treatment of precession in Kong Yingda and Li Chunfeng's respective canons captures a particular position at a particular moment in time, and attention to these structural forces provides, in my opinion, the most comprehensible account as to how they got there.
For readers unfamiliar with astronomy, titles ending in li 曆, like the Huangji li 皇 極曆 (604), are mathematical procedure texts for calculating both the civil calendar and the astronomical phenomena that go into ephemerides, eclipse reports, etc.The majority of authors composed li to instigate a "reform" (gaili 改曆) that would see the court "implement" (shi 施) and "operate" (xing 行) their new li for official purposes (so-called "calendar reform").These procedure texts are principally preserved in the "Li zhi" 曆志 and "Lüli zhi" 律曆志 monographs in the dynastic histories, and most of those mentioned here are translated and studied in Hongtao Liu (2003) and Cullen (2017).What matters for our purposes here is simply whether an individual li includes a model for precession.
As concerns people, it is difficult to establish an individual's polymathy and affiliations, let alone how those affiliations may have informed a position, without mention of a large number of names, biographical details, and events.My overview synthesizes information covered in greater detail in the aforementioned scholarship, and to help the reader, I end each people-heavy section with a summary of the pertinent features and dynamics of the communities described.Lastly, to argue that, compared to his other affiliations outside this debate, a subject's identity as a "Buddhist", "Daoist", or "Confucian" is ambiguous and irrelevant involves, ironically, establishing said identity.I have attempted to do this with maximum disinterest, highlighting a subject's concrete engagements, how our sources label him, and how he is discussed in relevant scholarship.

Scripture, Science, and the Measure of the Invisible
As illustrated in Figure 1, the equinoxes are where the ecliptic (the sun's path) intersects the equator (the great circle midway between and perpendicular to the celestial poles).The solstices are the midway points between the equinoxes, where the ecliptic is furthest north and south of the equator.And all of these points shift westwards relative to the stars at a rate of approximately 1°every 71.6 years.This is called the "precession of the equinoxes", and it is due to a slow-roughly 26,000-year-gravity-induced wobble in the earth's rotational axis, the effects of which include the migration of the pole and, thus, a gyration of the polar-equatorial coordinate grid.In the West, Hipparchus (ca.190-ca.120 B.C.) was the first to discover and model the precession of the equinoxes.This was refined (Swerdlow 2010), and the Greek spherical understanding filtered into India by at least the time of Bhāskara I (fl.A.D. 629) (Pingree  1972).In China, the discovery was piecemeal, unfolding at its own pace until the introduction of the Islamic and Jesuit extensions of the Greek tradition.For the purposes of this article, it suffices to reduce this history, studied in He (1978) and Qu (2008), to three points.First, the opening step was to recognize an "annual difference" (suicha 歲差) between the time it took the sun to go from one winter solstice to the next (the tropical year) and to return to the same position among the stars (the sidereal year).Second, it was starting from Liu Zhuo's 劉焯 (N.Qi-Sui, 543-610) Huangji li 皇極曆 of 604 that experts began to narrow in on a recognizable rate.Third, it was only after Monk Yixing's 一行 (673-727) Dayan li 大 衍曆 of 728 that the "annual difference" gained universal acceptance.
How does one perceive such a thing?In his preface to the Chunqiu changli 春秋長曆, we see Du Yu 杜預 (Wei-Jin, 222-285) struggling in vain to reconcile the dates of eclipses recorded in the Spring and Autumn Annals (covering 722-481 B.C.).In his words, such things "can be largely known, within limits" 有大量可得而限, but as time goes on, "differences (cha) of a hair's breadth" 毫末之差 accumulate and render the task impossible: Thus it is that in the Annals there are solar eclipses on consecutive months and that there are long years without any at all: there is no single principle, and holding to constant values in computation is why there is no astronomy (li) that does not slip ahead or behind.故春秋日有頻月而蝕者，有曠年不蝕者，理不得一，而 算守恒數，故曆無不有先後也. 3 Du's astronomical work was part of his commentarial project, the Chunqiu jingzhuan jijie 春秋經傳集解, and further analysis can be found quoted therefrom in Kong Yingda's Chunqiu zhengyi 春秋正義 (K.Chen 2015, pp.214-20; Wang 2023, pp.123-49).On the subject of eclipses, Sima Qian 司馬遷 (ca.145-ca.86 B.C.) mentions studying "historical records" (shiji 史記) going back a hundred years. 4The "Tianwen" 天文 (Heavenly Patterns) monographs of his and subsequent histories would further go on to provide the most professional, expansive, and unbroken record of eclipses in human history.But nothing could outweigh the 37 dated eclipse records in the Annals and its traditions; it was a Classic (jing 經), supposedly edited by the hand of Confucius (551-479 B.C.), and the eclipses therein go back five centuries before the dawn of imperial record keeping.According to Ban Gu 班固 (32-92), Liu Xin 劉歆 (d.A.D. 23) likewise "created the Santong li 三統曆 and chronology (Shijing 世經) to explain the Annals" 作三統曆及譜以說春秋, 5 and the Annals have provided astronomers with critical data for the study of eclipses up to the modern day. 6recession is different.At a human scale, its effects are generational and, thus, invisible.This is not to mention that the sun's position among the stars cannot be directly observed, since the light of the one drowns out the other.The "annual difference" is thus not seen but sought.
The earliest indirect method of measuring the position of the sun was to use the "star" (lodge) that was "centered" (zhong 中, i.e., culminated) on the meridian at dusk and dawn, when the sun is roughly a quarter of the sky away (Figure 2).This is inexact, and it was Jiang Ji 姜岌 of Tianshui 天水 (L.Qin, fl.384) who first thought to extrapolate the position of the sun from the position of the moon at lunar eclipse, when the two are opposite one another.As per the first point, no one had bothered to systematically conduct and publish such measurements in anticipation of this use, so the historical record was mostly blank, and experts had to reconfigure their observation programs and content themselves with a limited set of recent data.It is also important to note that, in his exhaustive study of the earlier tradition, Guo Shoujing 郭守敬 (1231-1316) concludes that only six astronomical procedure texts (li) to his day had based their values on new observations, the rest relying on texts, number crunching, and splitting differences (Qu 2008, pp.181-83).
The best that ancient scripture had to offer concerning the precession of the equinoxes were the legendary instructions given by King Yao 堯 to the brothers Xi and He 羲和 in the "Yaodian" 堯典 chapter of the Classic of Documents: When the day is [of] medium [length] the star is Bird, and this is used to determine mid-spring. . . .When the day is long[est] the star is Fire, and this is used to fix mid-summer. . . .When the night is [of] medium [length] the star is Barrens, and this is used to determine mid-autumn. . . .When the day is short[est] the star is Mane, and this is used to fix mid-winter.日中星鳥，以殷仲春……日永星火， 以正仲夏……宵中星虛，以殷仲秋……日短星昴，以正仲冬. 7.
There is a clear parallel between these instructions and the stellar orientations provided for each month in the later "Yueling" 月令 chapter of the Record of Rites.For example: In the late autumn month, the sun is in Chamber; Barrens is centered at dusk, and Willow is centered at dawn.季秋之月，日在房，昏虛中，旦柳中. 8 Neither of these passages is as useful as the Annals' eclipse records; they are undated, months and lodges are imprecise, and the Documents neglects to mention the hour.The Documents and Rites would also seem to contradict one another as to the month that a star like Barrens is centered (mid-autumn vs. late autumn).Nevertheless, these were some of the best data available on the position of the sun at the solstices and equinoxes prior to A.D. 384 for reasons of observational reach and sacred authority.
Lastly, we should ask why any of this matters.The facile answer is that astronomy was important, and that these are the sort of things that literally keep astronomers up at night. 9More specifically, it is worth emphasizing that, while an "annual difference" model held significant explanatory potential, its predictive applications were limited: it enabled the expert to compensate for errors in calculated position so minute as to be undetectable at the scale of a single human lifetime, with little to retrodict in the past and no hope of verifying one's predictions in the future.We can thus say that curiosity was a factor, but it is difficult to label this "science for science's sake".As shown by the example of eclipses, such things were as much matters of "Confucian studies" as they were "astronomy", and most of the aforementioned "astronomers" were polymaths whose accomplishments in other fields made them natural vectors by which knowledge circulated from one to the other.These men had, for that reason, a habit of bringing together all the elements necessary to reveal an irreconcilable conflict: that, in this case, between scripture and experience, between philology and experiment, and between Sage and man.They were also the ones obliged to close the matter, be it by concession or by feat of mental gymnastics.The du 度 is a linear measure of the circumference of an astronomical great circle defined as the daily displacement of the mean sun, meaning that there are as many du in a circle as there are days in the sidereal year and, roughly speaking, 365 1 4 du = 360 • , and 1 du = 0.99 • .The specific lodge widths and solar term association are as per He Chengtian 何承天 (370-447).

Men of the Southern Sky
The story of precession generally begins with Yu Xi 虞喜 of Kuaiji 會稽 (Jin, fl.307-345; for place names, see the map in Figure 3), whom Yixing credits as "awakening to it, making Heaven Heaven, and the year the year, then establishing a [precise value for their] difference to seek their transformations, making [the solstices and equinoxes] retreat 1 du every 50 years" 虞喜覺之，使天為天，歲為歲，乃立差以追其變，使五十年退一度. 10 For that reason, it seems wise to preface Yu Xi with the dream from which he was stirred.In his commentary to the aforementioned passage from the Documents, pseudo-Kong Anguo 孔安國 (W.Han) glosses "Bird" as "the seven lodges of the Vermilion Bird of the South" 南方朱鳥七宿, and he interprets the following lodges as synecdoche by merit of their central position in the other quadrants: Barrens is the cent[ral] star of the Dark Warrior, which is also to say that [its] seven stars (lodges) are all visible on the date of the autumn equinox.虛，玄武 之中星，亦言七星皆以秋分日見.
In their respective commentaries, Ma Rong 馬融 (79-166) and his disciple Zheng Xuan 鄭玄 (127-200) disagree, insisting that "these all raise the [specific] stars (lodges) that are directly cent[ered on the meridian], not the fact that the quadrant [to which they belong] is complete[ly visible]" 皆舉正中之星，不為一方盡.Agreeing, the contrarian Wang Su 王肅 (195-256) insists that, actually, the parallel structure of the text implies a progression through the three months of each season such that each constellation refers to the "centered star" of the subsequent month. 11The reason for this, presumably, is to align the "Yaodian" with the "Yueling" (above) and, more or less, with the observational reality of his own day.In sum, Ma Rong and Zheng Xuan broke from Kong Anguo to insist that the passage in question was, in fact, a list of modern-style scientific data, and Wang Su proposed a radical rereading to reconcile the two Classics with both one another and experience.Even Wang Su could trust Zheng Xuan, apparently, because Zheng Xuan was equally trained in astronomy and mathematics. 12eturning to Yu Xi, it is only ten centuries later, in the Songshi 宋史 (1346), that we get the first and only clue as to his line of reasoning: Yu Xi said, "On winter solstice in the time of Yao, 'The day is at its shortest, and the star is Mane'.Today, more than 2700 years [later], Eastern Wall is centered, so we know that this was brought about by a gradual difference every year".虞 喜云：「堯時冬至『日短星昴』，今二千七百餘年，乃東壁中，則知每歲漸差 之所至」. 13 short, Yu Xi accepted the aforementioned premises, but instead of adapting his reading, he adapted the science.This required attributing an immaculately conceived, rainbow-eyebrowed sage king at the dawn of human civilization with a precise historical date.As studied in Wang (2022, pp.236-41), Yu Xi had his choice of at least six chronologies placing the ascension of Yao between 2413 and 2145 B.C., and he apparently went with that used for the contemporary stele at "Yao's tomb" in Chengyang 城陽 District.All we know about this chronology is that the stele states that "from Yao's ascension to Yongjia year 3 (A.D. 309) were 2721 years" 堯即位至永嘉三年，二千七百二十有一載. 14s for the modern "centered star", Wang (2022, p. 241) argues that Yu Xi used the ancient "Yueling"-"In the mid-winter month, the sun is in Dipper, and the Eastern Wall is centered at dusk" 仲冬之月，日在斗，昏東壁中. 15Alternatively, he may have used the latest solar table-from A.D. 174 (Cullen 2007)-and chose the solar term prior, Greater Snow, at the beginning of the mid-winter month and centered at dusk at Wall 7 12 du.Yu Xi then correctly calculated from his chosen parameters the rate necessary for the "centered star" to retreat 54 du from mid-Mane to mid-Wall over 2700 years: 2700 ÷ −54 = 50 years per −1 du (error −20.6 years).It is worth noting, of course, that this does not account for how far the centered stars would have moved from the date of the "Yueling" (or Han solar table) to Yu Xi's day in the fourth century.
We do not know where Yu Xi wrote this other than, socially speaking, in reclusion.It could have been in his six-volume monograph on scientific cosmology, the Antian lun 安天論, later dismissed as unserious by He Chengtian 何承天 (370-447) and Li Chunfeng (Morgan 2019, pp.146-58), but it could have just as easily been in one of his several commentaries to the Classics.Another outside possibility is his thirty-volume collection Zhilin xinshu 志林新書, which later bibliographers classified under "Rujia" 儒家 (Confucianism), but whose contents range from history to local cults and early Daoist movements around Kuaiji. 16Xi's younger brother Yu 預 led a successful career in the Palace Library and in historiography, and while Xi saw frequent solicitation after the Jin court's exodus south to Jiankang in 317, he was a man outside of time.Xi was the great-grandson of Fan 翻 (164-233), the celebrated scholar of the Changes and the outspoken courtier who saw himself banished from the Sun-Wu court to Jiaozhou 交 州, in modern Vietnam.Of Fan's four prominent sons, Si 汜 (218-ca.271) was purged in a succession struggle, returning to Jiaozhou as its regional inspector; Zhong 忠 (d.280) died before surrendering as a prisoner of war to the Jin; Bing 昺, conversely, resigned his command of the northern army to join them; and Xi's grandfather Song 聳 kept his head down, transitioning from a governorship under the one to under the other.In the sciences, Fan was a friend of Lu Ji 陸 績 (188-219) and a mutual acquaintance of Kan Ze 闞澤 (d.243) through Ding Gu 丁固 (198-273), while Si served alongside Wang Fan 王蕃 (228-266) as a court attendant.The Yus were thus part of the scientific heyday of the Sun-Wu court, and one of the brothers-Song or Bing-wrote his own monograph on scientific cosmology (Qiongtian lun 穹天論).But that was another time: the south was defeated, its savants were dead or scattered, Yu Xi was an orphan, and the next century and a half saw no court activity in astronomy outside the Gansu Corridor and occupied Chang'an (Morgan 2021).Not only did Yu Xi choose to refuse office, live alone, and die childless, he was, in astronomy, a lost soul speaking into the void. 17his brings us to our second orphan.A generation later, in 365-371, Xu Guang 徐廣 of Dongguan 東莞 (Jin-Song, 351-425) began what would become a forty-year personal observation program pursued over his own career as an archivist and historian in Jiankang.His greatest contribution to the history of precession lies however in raising his fatherless nephew-in-law He Chengtian of Donghai 東海.His adopted son would take over for him, continuing forty more years, and he would orient his observations towards gnomonics and errors in the timing of the solstices and equinoxes.In 443, finally, He Chengtian would submit his Yuanjia li 元嘉曆 to Emperor Wen of the Liu-Song (r.424-453), sparking the first court discussion of "calendar reform" in Chinese-held territory since 237.
In his memorial, He focuses on the contemporary winter solstice, emphasizing how his family observation program helped detect errors of 4 du in position and 3+ days in timing and, of course, how the Yuanjia li stood to correct that.He does not use the word "annual difference", but his argument and sources are familiar: The "Yaodian" states that "The day is at its longest, and the star is Fire;-you may thus exactly determine the mid-summer".Today, Fire (i.e., Heart) is centered in the late summer month.[It] further [states] that "The night is of medium length, and the star is Barrens;-you may thus exactly determine the mid-autumn".Today, Barrens is centered in the late autumn month.Investigating this through centered stars more than 2700 years hence, [one finds that] the difference (cha) is 27 to 28 du, so on the winter solstice decreed by Yao, the sun was around 10 du in The major difference is that He Chengtian uses two of the Documents' four relevant lines, ignoring that used by Yu Xi (mid-winter: Mane), and the resulting rate is half that of his predecessor.As to the rest, to summarize from Zheng (2007) and Wang (2022), He apparently switches to the chronology of Liu Xin's Shijing or Huangfu Mi's 皇甫謐 (214-282) Diwang shiji 帝王世紀, which place Yao's ascension around 2300 B.C., 19 so as to keep Yu Xi's figure of "2700 years hence" a century later.The centered stars of "today" are likewise not those found in the Yuanjia li's new solar table but in the ancient "Yueling". 20He's argument is that the months stand for qi, the two-qi (= 1 12 year = 30.44day) discrepancy between the "Yaodian" and "Yueling" amounts, at 1 du/day, to a discrepancy of about 27 du, and 2700 ÷ −27 = 100 years per −1 du (error +29.4 years).The position given for the ancient winter solstice-"10 du in[to] Maid"-is either calculated 27 du back from Jiang Ji's value (Dipper 17 du, in 384) or, if 十 is a mistake for 七, from He Chengtian's (Dipper 14 1 12 du).Either way, this argument is a pastiche, and the numbers do not add up.
Three things are odd about this memorial.First, this pastiche presents a stark contrast with the rigorous, functional mathematics of the extant procedure text of the Yuanjia li that it prefaces in the Songshu 宋書 (492/493).Second, the Yuanjia li does not, tellingly, use an "annual difference" at all. 21Third, He is famous in Buddhist sources for his exchange with a monk over "the astronomy of Buddhist countries", and while several features of his Yuanjia li smack of Indian influence (Zheng and Jiang 2007; Niu and Jiang 1997), he does not seem to have borrowed anything concerning precession.He Chengtian was otherwise a rather standard Confucian scholar-official, moving from director of the watches for the Heir Apparent to become an editor and academician, and he was known, outside of astronomy, for compiling an encyclopedia (Huanglan 皇覽, 123 vols), a ritual compendium (Lilun 禮論, 300 vols), and a commentary to the Spring and Autumn Annals (Chunqiu qianzhuan 春秋前傳, 10 vols).Indeed, the other thing for which He Chengtian was remembered in Buddhist sources was his staunch ethnocentric criticism of its doctrines (Martin and Chaussende 2020, pp.201-2).One might say that He Chengtian was the first serious astronomer to work on precession, but his solution was no better, he was as much of an exegete as were Yu Xi and Zheng Xuan, and he kept whatever he knew about precession out of his actual astronomy.
After some debate and revisions, Emperor Wen ordered the state adoption of the Yuanjia li in 445.A mere seventeen years later, under Wen's son Xiaowu (r.453-465), the scholarofficial Zu Chongzhi 祖沖之 of Fanyang 范陽 (429-500) would submit a new astronomy, with the aim of replacing the Yuanjia li, that finally incorporated an "annual difference".The proposal met a point-by-point rebuttal by the emperor's former tutor and current favorite, Dai Faxing 戴法興 (414-465), which stymied discussion until Xiaowu's death in 465.Under the Southern Qi (479-502), Prince Zhangmao 長懋 (458-493) brought the mat-ter back up to Emperor Wu (r.482-493) before their own untimely deaths, and it was only another dynasty later, in 504, that Chongzhi's son Geng 暅 (fl.504-525) managed to convince the great Buddhist monarch, Emperor Wu of Liang (r.502-549), to see his father's work into state policy.The idea seems to have gained traction, as when Emperor Wu commissioned a new astronomy in 544, Yu Kuo 虞 et al. likewise submitted one with an "annual difference". 22either of their rates were an improvement; Zu Chongzhi arrived at 45.9 years per −1 du (error −24.7 years), and Yu Kuo et al. at 183 years per −1 du (error +112.4 years).
All we know about the latter is that Yu Kuo reports comparing Jiang Ji, He Chengtian, and Zu Chongzhi's winter solstice positions with contemporary "centered star" observations, i.e., a purely empirical approach from recent expert data. 23Zu Chongzhi's, on the other hand, was part of a larger project.As detailed in his extant memorial, "there are three truths (i.e., a priori principles) to the establishment of [his] methods" 設法之情有三: (1) that Barrens 1 du, at the position zi.B01 子 in the middle of the northern quadrant (Figure 2), is the natural start point of the winter solstice at high origin; (2) that jiazi.01 甲子 is the natural start point in the sexagenary cycle for both the year and day at high origin; and (3) that, as per tradition, all astronomical cycles must start at zero at high origin. 24In addition to the symbolic perfection of these choices, Zu had also developed a method for interpolating the exact moment of the solstice from multiple shadow measures, which led to a massive improvement in contemporary data.It is worth emphasizing, however, that the alignment of the burgeoning number of astronomical cycles to a single high origin required compromise, and as the most invisible and experimental of them all, his value for the "annual difference" was likely stretched to fit to his choice of origin (Qu 2008, pp.175-77, 182).
Nothing further is known about Yu Kuo.As concerns Zu Chongzhi and his son Geng, their biographies and bibliographies present similar profiles to that of He Chengtian: scholar-officials equally accomplished in Classical exegesis and the sciences.With that said, Chongzhi was foremost an inventor and mathematician, attributed with the later Classic Zhuishu 綴述 and a commentary to the Jiuzhang suanshu 九章算術, and he is also attributed with having "written yi 義 ("meaning" commentaries) to the Changes, Lao [zi], and Zhuang[zi]" 著易老莊義. 25The birth of theoretical mathematics in Liu Hui's 劉徽 commentary to the Jiuzhang suanshu (263) was intertwined with "dark learning" (xuanxue 玄學) philosophy (Guo 1984), so it is only natural that Zu-the second great Chinese mathematician-might have had an equal exegetical interest in its core texts.
In summary, the history of the precession of the equinoxes in China to A.D. 544 is one of a problem in Confucian exegesis that was consciously developed into one of mathematical astronomy and, gradually, saw a shift in epistemic weight away from ancient scripture and towards contemporary observations and mathematics.This was not because experts were improving or even narrowing in on a single answer, nor because the idea bore pragmatic fruit, but rather, it would seem, because they were curious.There were a variety of characters involved in this history, but they would appear to share three things in common.First, those at the frontier between mathematical astronomy and Classical exegesis tended, unsurprisingly, to be polymaths established in both fields.Second, everyone in this history from Yu Xi to Yu Kuang was active in and around Jiankang (Morgan 2021,  pp.32-34).Third, to pursue the question using the Documents meant rejecting both Kong Anguo's authority and his perfectly sensible position that one should be careful about overreading the "Yaodian".

Isolation, Conquest, and the New Underdogs
Following a parallel transmission from the Gansu Corridor in 439, the Northern Wei (386-534) capital at Pingcheng 平城 saw an even greater and more sustained explosion of activity in astronomy than did Jiankang in the same years.This too involved a variety of characters.Most were scholar-officials (e.g., Li Yexing 李業興 [484-549]).Authors also included a well-connected hermit (Li Mi 李謐 [484-515]), a śramaṇ a (Tong Daorong 統道 融 [fl.518]), and two high-level Daoists: Zhang Bin 張賓 (fl.568-584) and Kou Qianzhi's 寇謙之 (365-448) patron Cui Hao 崔浩 (d.450).Through the court's move to Luoyang 洛陽 (493) and schism between the Eastern (534-550) and Western Wei (535-557), what these men shared in common was that none of them ever spoke of the "annual difference".This is despite two known transmissions from south to north.One was from Zu Geng to Xindu Fang 信都芳 (d.543/550), after Xindu helped secure Zu's release as a prisoner of war circa 520.Another was the Western Wei's capture and integration of the human and material resources in astronomy at the Liang's (502-557) new capital of Jiangling 江陵 in 555, which saw the southern experts Yu Jicai 庾季才 (516-603) and Ming Kerang 明克讓 (525-594) commissioned to produce a north-south synthesis to inaugurate the Northern Zhou (557-581).
Silence remained the mainstream position on the "annual difference" at Ye 鄴 through the Eastern Wei and Northern Qi (550-577), as it did in Chang'an 長安 through the Western Wei and Northern Zhou into the Sui (581-618).Like Yu Jicai and Ming Kerang before him, the Daoist master Zhang Bin led a joint team of experts from Chang'an and Ye to author a new astronomical synthesis to inaugurate the Sui-the Kaihuang li 開皇曆 (584)-for which "[the northerners] Bin and company used [the southerner] He Chengtian's model with minor modifications" 賓等依何承天法， 微加增損. 26Like He Chengtian's now long-surpassed Yuanjia li, the extant parameters of the Kaihuang li show no distinction of the tropical and sidereal years. 27No relevant Confucian commentary survives from this period, but to get a sense of the situation there, we can consult Zhen Luan 甄鸞 of Zhongshan's 中山 (N.Zhou, fl.535-570) Wujing suanshu 五經算術, a two-volume study of math problems in the Confucian Classics and their commentaries.From the Documents, the Wujing suanshu offers three problems of astronomy, and one of numeration.It cites the Kong Anguo and Zheng Xuan commentaries as authorities, and, like Kong and Zheng, it does not single out the passage on "centered stars" as one requiring mathematical treatment. 28Neither do the parameters of Zhen Luan's Tianhe li 天和曆 distinguish between the tropical and sidereal year. 29he Tianhe li and Kaihuang li share a number of other technical features in common with all northern works from the fifth century on: the "obscuration" (bu 蔀), large denominators, and the continued use of an eclipse year (hui 會) where the south had shifted to the nodical month (yinyang li 陰陽曆). 30This common regional tradition in mathematical astronomy, however, is the only thing that Zhang Bin and Zhen Luan shared.Likened to Kou Qianzhi, Zhang Bin was a Daoist master (daoshi 道士) and the author of Emperor Wu of Zhou's (r.560-578) conversion and pogrom against the Buddhist saṃ gha. 31Called in for a second opinion, Zhen Luan, on the other hand, authored what is perhaps the most thorough, witty, and devastating criticism of religious Daoism in Chinese history: the Xiaodao lun 笑道論 (Kohn 2008).Zhen Luan disappears from the historical record thereafter, while Zhang Bin would go on to become the chief propagandist behind the rise of the Sui.
To reiterate, northern experts at the courts in Luoyang, Chang'an, and Ye did not use or even speak of the "annual difference" for the first two and a half centuries since its discovery.This is despite the transmission of southern works (520), the integration of southern experts (555), and the nominal interest in synthesizing the two traditions (557-584).As to why, Morgan (2021) argues that this is because northern astronomers were first unaware, then unconvinced, having formed their own tradition over a century of isolation from their southern analogues.Whatever the case, an explicit conflict arose from strange quarters aimed at Zhang Bin's coalition.
To further summarize from Liang Li (2019) and Morgan (2021), as soon as Zhang Bin's Kaihuang li was enacted, three no-name former Northern Qi subjects from the North China Plain began to demand an immediate rollback of the monumental reform in favor of their own respective astronomies: Liu Xiaosun 劉孝孫 of Guangping 廣平 (d.594/597), Liu Zhuo 劉焯 of Xindu 信都 (543-610), and Zhang Zhouxuan 張冑玄 of Bohai 渤海 (d.605/617).Liu Xiaosun was an activist-a thorn in the side both the throne and the Directorate-who outlived Zhang Bin but died stymied by his own obstinacy.Zhang Zhouxuan was a no-name Directorate technician, who briefly served alongside Liu Xiaosun.Liu Zhuo, lastly, was a promising scholar-official who had fallen from grace for his involvement with his child-hood friend Liu Xuan 劉炫 of Hejian's 河間 (c.546-c.613)scheme to pass off forgeries in the Imperial Library's book drive.Zhang Zhouxuan and Liu Zhuo were allies and protégés of Liu Xiaosun, Liu Xiaosun was a student of Zhang Zixin 張子信 of Qinghe 清河 (d.577), and Zhang Zixin was not just their intellectual forefather but something of a revolutionary martyr figure.Zhang Zixin had died in the fall of the Northern Qi, and while he had briefly served the court as a doctor, he had mostly refused office to live in the woods on Mount Bailu 白鹿山, a sanctuary and site of solitary cultivation for Buddhists and Daoists alike. 32In a similar vein, Zhang Zixin also fled the Ge Rong 葛榮 rebellion (526-528) by secluding himself on a sea isle, where he would devote himself for more than thirty years to observation and cultivating mathematical astronomy.The result was so revolutionary that it would mark a new age for Chinese astronomy and raise questions about foreign influence (Jiang 1991, pp.276-83).But it was untested, and the live trial secured by his students Liu Xiaosun and Zhang Mengbin 張孟賓 of Guangping in 576 was cut short by the fall of Ye and the death of their master.
After Liu Xiaosun's death, Zhang Zhouxuan and Liu Zhuo had a falling out, each authored and petitioned for his own astronomy, and both, in different ways, won the day.In 597, Zhang was granted a live trial, he both destroyed and ousted the competition, his Daye li 大業曆 was instated, and he and Yuan Chong 袁充 (544-618), his newly arrived ally from the former Chen (557-589) court at Jiankang, were appointed to replace the Chang'an faction at the Directorate.Liu Zhuo's Huangji li 皇極曆 had the support of the heir apparent, but nothing came of it when he took the throne in 604.He and Liu Xuan were students of the influential Xu Zunming 徐遵明 (475-529)-Xiong Ansheng 熊安生 (d.578) lineage of Rites scholarship in the North China Plain.Given their repeated failures at court, they thus wedded this with mathematics and the Zhang Zixin school of astronomy to make their living running a sort of private Confucian polytechnic and, as part of the curriculum, composing extensive subcommentaries to the Classics.At this they were successful.Among their students were Kong Yingda of Xindu and Zhang Shiheng 張士衡 of Hejian (d.645), teacher to Jia Gongyan 賈公彥 of Guangping (fl.637-650).And in the Wujing zhengyi 五經 正義 (compiled 638-653), Kong Yingda specifies that he is simply reworking his teachers' subcommentaries to the Documents, Odes, and Zuo Tradition (McMullen 1988, pp. 74-75).
The "annual difference" would also appear to have emerged the victor from this rivalry.Their principal innovations aside, both Zhang Zhouxuan and Liu Zhuan's procedure texts adopt the "annual difference", and they manage to significantly improve on historical rates to that point; the Daye li uses 84.8 years per −1 du (error +14.2 years), and the Huangji li 76.5 years per −1 du (error +6.0 years).According to Li Chunfeng, "Zhouxuan both studied Zu Chongzhi and transmitted his master method" 冑玄學祖冲之， 兼傳其 師法. 33If Shen Kuo 沈括 (1031-1095) is to be believed, however, this could also trace back to the North China Plain, because "it was only in the Northern Qi that Zhang Zixin first knew the annual difference through watching (observation)" 至北齊張子信方侯知歳差. 34he northern and southern traditions had now truly been synthesized, if not replaced, and the new rivalry was between two offshoots of the Zhang Zixin school, both of which used the "annual difference".
A generation later, when Emperor Gaozu of the Tang (r.618-635) took the throne, the Astronomical Directorate was run by the southerner Yu Jicai's grandson Jian 儉 and, in second command, Fu Yi 傅弈 of Ye (555-639).They recommended Fu Renjun 傅仁均 of Huazhou 滑州 to author the inaugural astronomical procedure text, and he came back with a finished procedure text the same year, which he sold to the emperor in seven points aimed at harmonizing the values of science, scripture, and symbolism.Two dealt with the longdebated idea of "fixing" (ding 定) the civil calendar to the true, astronomical new moon.Another two concerned the Zu Chongzhi-like choice of an appropriately meaningful high origin, appealing both to Changes numerology and the sexagenary year and day of the Tang founding.The other three affirm its accord with astronomical records in the "Yaodian", the Odes, and the Spring and Autumn Annals weft Mingli xu 命曆序.Fu's Wuyin yuan li 戊寅 元曆 was rushed into service the following year without trial or discussion, but little was new: "Renjun's astronomical methods followed Zhouxuan['s] as their ancestor, with minor reference to Liu Xiaosun's old appraisal" 仁均曆法祖述冑玄，稍以劉孝孫舊議參之. 35n sum, disciples of the hermit Zhang Zixin's North China Plain school forced a confrontation at the Sui court concerning, among other things, the "annual difference".They split, and one of the two new factions managed to forge an alliance with a newly arrived expert from Jiankang to chase out the old guard.The names had changed, but the southern-North China Plain alliance still controlled the Directorate in 618, and the Tang's (618-907) new astronomy was only naturally an embellishment and minor improvement on the previous historical winner's.The "annual difference", it would seem, was finally on the right track and here to stay.

New Stakes, New Positions
Backed by the Astronomical Directorate, recent history, and the founding emperor, rather than settling the expert opinion on the "annual difference", Fu Renjun's Wuyin yuan li was an inflection point around which the discussion spontaneously realigned into a new pair of opposing parties.The Wuyin yuan li went slightly backwards, using a rate of 55.5 years per −1 du (error −15.1 years), but even the author of the Xin Tangshu 新唐 書 "Li zhi" 曆志, in all his hindsight, is ambivalent about whether Fu's work was actually worse than its eventual replacement: It was mostly greatly looser than [Li] Chunfeng (below).Still, the two were at odds (as concerns predictions), and Chunfeng was unable to exceed the hits that it got.其大最疎於淳風。然更相出入，其有所中，淳風亦不能逾之. 36ther way, in its second year of service, the Wuyin yuan li disastrously predicted eclipses on 23 February (lunar), 10 March (solar), and 2 September 620 (solar) that, while they did actually occur in and around Tang territory, were reported as successive failures. 37u Xiaosun 祖孝孫 of Fanyang and the Directorate's astronomy erudite Wang Xiaotong 王孝通 launched an investigation upon imperial order.Reporting back in 623, their first, principal (and wholly unrelated) criticism concerned the "annual difference"; they pointed to contradictions within the "Yaodian" militating against a neat date from a strict reading, and they affirmed the inherent relation between the current solstitial lodges (Dipper and Well) and the seasonal extremes of cold and heat.In doing so, their language echos that of the Kong Anguo commentary: "When the day is short[est] the star is Mane, and this is used to fix mid-winter".The seven lodges are all visible, but only the central lodge is evoked.If the central lodge is evoked, then the remaining stars can be known.「日短星昴，以正仲冬。 」 七宿畢見，舉中宿言耳。舉中宿，則餘星可知. 38 Fu Renjun responded with a learned explanation grounded in both astronomy and the Classics, but the throne nonetheless ordered Wang and Cui Shanwei 崔善為 of Beizhou 貝 州 (d.627) to amend several dozen items. 39nce Zu and Wang had succeeded in drawing blood, Li Chunfeng of Qizhou 岐州 took over.At the time, Li was a 24-year-old auxiliary at the Directorate with his career ahead of him and, it would seem, a lot to prove.Li petitioned the throne three separate times for further amendments.The first, in 627, concerned eighteen unspecified matters, of which seven were adopted after review by Cui Shanwei.The second concerned a 3 ke 刻 (≈45-min) gap in the official calendar between what would be a momentous conjunction of the new moon and winter solstice on day jiazi.01 on 19 December 640.Li had developed "new procedures" 新術 that happened to nudge the new moon past midnight, onto the more auspicious day, and they won the unconditional support of both Directorate staff and Kong Yingda, then chancellor of the National University and an influential voice on the Rites and imperial ceremonial.The very next year, Li was appointed as an erudite at the Ministry of Rites and, shortly after, saw himself promoted to assistant director of the Astronomical Directorate.The third petition, in 644, involved the symbolic "unfixing" of the civil calendar to the true, astronomical moon to avoid four "big" 30-day months in a row.As it happened, by the time that the throne grew tired of amending the Wuyin yuan li in 664, Li was the director of the Astronomical Directorate, he was ready in waiting with his own Linde li 麟德曆, and this too was immediately adopted without trial or debate. 40he biggest sign of how the times had changed is that the Linde li was "referentially operated" 參行 with the Jingwei li 經緯曆 of the new Indian-origin director Gautama Luo 瞿曇羅.Indeed, appended to the version of the Linde li preserved in the Jiu Tangshu 舊唐 書 (945) is a discussion of how eclipse prediction was handled in "the Indian methods of Kāśyapa Xiaowei and company" 迦葉孝威等天竺法. 41If this essay was Li Chunfeng's, then it had no apparent impact on his work.Understandably, his two major influences were tied to his more immediate engagements.The first, as argued in Liang Li (2019), is that when Li Chunfeng was charged with writing the "Lüli zhi" 律曆志 for the court's new histories of the Jin (265-420) and the Five Dynasties (502-618) in 641-648, he solidified his knowledge of mathematical astronomy through study of Liu Zhuo's Huangji li, canonizing both the work and its author, in defiance of the conventions of state history, as a celebration of the underdog.The ultimate structural similarities between the Linde li and Huangji li several decades later were thus, according to Li (2019), a way for Li Chunfeng to secure by proxy the political and intellectual place that he felt his intellectual idol was due.In so doing, however, the Linde li abandoned the "annual difference", bringing us to Li Chunfeng's second source of inspiration.
Somewhere along the way, as it happens, Li also adopted the position of the first piece of criticism to garner immediate imperial support for challenging the scientific establishment.According to the rebuttal in Yixing's Liyi 曆議 a century later, "Chunfeng held that the winter solstice had always been at Dipper 13 du" 淳風以冬至常在斗十三度.His argument is threefold.First, "Chunfeng held that ancient procedures were loose and confused, [to the point that] they were unaware of discrepancies [as much as] 15 du with heaven at quarter and full moon, dusk and dawn" 淳風以為古術疎舛，雖弦望昏明，差天十五度 而猶不知.In other words, astronomy had come a long way, and we should question the reliability of earlier sources given what we know of their inaccuracy on other fronts. 42Second, he emphasizes that "today, at the medial qi of the first month of spring (Rain Water), the sun is in House, and the centered stars at dusk and dawn are no different than in the 'Yueling", 今孟春中氣，日在營室，昏明中星，與月令不殊.Indeed, the precession of the equinoxes was sufficiently slow, and the "Yueling" sufficiently recent and vague, that a good half of the latter's solar and centered-star positions still held. 43Third, as illustrated in Figure 4, Li Chunfeng hammers the contradiction inherent in reading the key passage from the "Yaodian" as a list of expert, modern-style "centered stars": If Mane was centered at the winter solstice, then neither the Stellar Fire nor the Stellar Barrens would yet be due west at the summer solstice and autumn equinox.And if Fire was centered at the summer solstice, and Barrens centered at the autumn equinox, then Mane would already be due east at the winter solstice.There is [some] expansion and contraction between these, and [thus] this is insufficient proof of the annual difference.若冬至昴中，則夏至秋分星火、星 虛，皆在未正之西。若以夏至火中，秋分虛中，則冬至昴在巳正之東。互有盈縮， 不足以為歲差證. 44is is why Yu Xi conveniently ignored the summer solstice and autumn equinox, why He Chengtian ignored the winter solstice, and why the result was a rate of precession half that of Yu Xi's.
The stakes had clearly shifted, and so too did the divisions.This was no longer about regional cliques.The North China Plain school had won, almost everyone involved was now from the neighborhood, and the only clear distinction between regional bases was that between the Chinese and Indian-origin staff at the Directorate.Neither was this purely about the finer distinctions between the Daye li and Huangji li, because their consensus on the "annual difference" was now up for question by serious experts.Here too, lastly, the debate involved major figures in the "Three Teachings" without any obvious relation to their affiliations.Fu Renjun was a Daoist master. 45So too once was his Directorate sponsor Fu Yi, who famously militated for the abolition of Buddhism as a morally depraved foreign scourge in 621-626. 46Kong Yingda, by contrast, was one of the leading voices of Confucian scholarship, but Li Chunfeng, the leader of the opposition, was also the son of a Daoist master and was at least posthumously attributed with a considerable output in religious Daoist writings (Goodman 2019).The one neat parallel with the previous generation is that Li Chunfeng was an underdog on a mission to redeem his own scientific master/martyr figure.This worked out for him.Not only did he succeed in canonizing Liu Zhuo in state history and astronomical policy, but Li would also be charged in 656 with fixing and commentating a canon of Computational Classics: the so-called Suanjing shishu 算經十書, the equivalent in mathematics of Kong Yingda's Wujing zhengyi.This also worked out for Wang Xiaotong, one notes, whose Jigu suanshu 緝古算術 Li Chunfeng elevated to the status of a Classic and included in his canon. 47It is tempting to interpret Li Chunfeng's position on the "annual difference" as part of a cynical strategy to distinguish himself so as to advance these goals.Indeed, it does not help that Li had, in the same years, affirmed the sage-time origin of the armillary sphere in asking for money to build one, only to reverse his position when it came time to write a proper history. 48But Li was not the only one of Liu Zhuo's disciples to reject the "annual difference" in Liu's name.
In his preface to the Shangshu zhengyi 尚書正義, Kong Yingda describes himself as synthesizing the subcommentaries of Liu Zhuo and Liu Xuan to find an appropriate middle ground.His specific complaint about the former is "the way, for example, that [Liu Zhuo's]  words necessarily fall back on numbers to which the text of the Classic is [invoked] only by way of complement" 若其言必託數， 經悉對文. 49Despite Kong's own frequent tangents into astronomy and mathematics in the Wujing zhengyi, 50 the key passage in the "Yaodian" is indeed stripped of any mathematical analysis that was presumably once there in Liu Zhuo's original.Instead, Kong Yingda lays out the positions of the early commentators, concluding that: Mr. Wang's explanation (that the "centered stars" are those of the following month) violates the flow of the text.The way that Mr. Kong [Anguo] directly gets "they (the lodges of the appropriate quadrant) are all visible" is slightly tortuous, [but]  it is superior to Wang [Su] and Ma [Rong and Zheng Xuan] in terms of its reasoning (i.e., that these are modern-style "centered stars").王氏之說非文勢也。孔氏 直取「畢見」 ，稍為迂闊，比諸王、馬，於理最優. 51ong Yingda then spells out how this looked for three of the four relevant lines, omitting the mid-winter month: It is calculated (ji 計) that in mid-spring the sun is in Straddler-Harvester, and it sets at you.B10 (18:00, due west) on the horizon.At the time that dusk begins, Well-Ghost is at wu. B07 (12:00, the meridian); Willow-Stars-Spread is at si. B06 (10:00, two hours from culmination); and Axletree-Wings is at chen.B05 (08:00, four hours from culmination).This is to say that the seven lodges of the Vermillion Bird can all be seen… 計仲春日在奎、婁而入於酉地，則初昏之時井、鬼在午，柳、星、張 在巳，軫、翼在辰，是朱鳥七宿皆得見也…… It is calculated that in mid-summer the sun is in Eastern Well, and it sets at you.B10 on the horizon.At the time that dusk begins, Horn-Gullet is at wu. B07 ; Base-Chamber-Heart is at si. B06 ; and Tail-Basket is at chen.B05 .This is to say that the seven lodges of the east are all visible… 計仲夏日在東井而入於酉地，即初昏之 時角、亢在午，氐、房、心在巳，尾、箕在辰，是東方七宿皆得見也…… It is calculated that in mid-autumn the sun is in Horn-Gullet, and it sets at you.B10 on the horizon.At the time that dusk begins, Dipper-Ox is at wu. B07 ; Maid-Barrens-Rooftop is at si. B06 ; Hall-Wall is at chen.B05 .Speaking of this by raising the cent[ral] star Barrens is also to say that all seven stars (lodges) are visible together at the hour of dusk on the day of the autumn equinox.計仲秋日在角、 亢而入於酉地，初昏之時斗、牛在午，女、虛、危在巳，室、壁在辰，舉虛中星 言之，亦言七星皆以秋分之日昏時並見. 52is suffices to illustrate Kong Anguo's point: that the lodges of the relevant quadrants "are all visible".However, Kong Yingda does not account for the difference in the time and direction of sunset at the solstices, which makes this nonsensical if read as an attempt at a coherent mathematical solution (compare Figure 5 to Figure 4).Kong Yingda would have known that, given his background, so the only sensible conclusion is that he consciously refused to treat this as a problem of mathematical astronomy and, thus, as proof of the "annual difference".The discussion of the "annual difference" had seen a hard turn back to Classical evidence in the rhetoric of both Fu Renjun and his critics in the 620s.Whatever we may say about Wang Xiaotong, Li Chunfeng and Kong Yingda knew the subject, and their stated reasons for rejecting this scientific construct both involve considerations of antiquarian authority, philological rigor, and the sensibility of Kong Anguo's reading.
Fu Yi, Fu Renjun, and Li Chunfeng were all religious Daoists, but the Directorate was a subsidiary of the Ministry of Rites, and the idiom of astronomy was that of the Confucian Classics, so it was only a matter of time until the Confucian commentarial tradition reasserted itself on the matter.Indeed, the north had gotten along just fine without the "an-nual difference" until Zhang Zhouxuan had had his way in 597, and it is entirely possible that the silent resistance to it there was rooted in similar considerations.

Conclusions
The story of the "annual difference" fades out for another generation or two before reversing course one last time in the eighth century.Now it was Buddhists fighting among themselves, with the monk Yixing, backed by Vice Director Nangong Yue 南宮說, opposed by Gautama Luo's son, Director Gautama Siddhārtha 瞿曇悉達. 53fter his untimely death in 727, Yixing would posthumously emerge the victor and close the debate with Nangong Yue's editorial and political aid.Yixing's Dayan li 大衍 曆 would both replace the Linde li in state policy and best Gautama's translated work, the Navagraha li (Jiuzhi li 九執曆), in live trial. 54And as concerns the "annual difference", the detailed analysis in Yixing's Liyi would square the circle by harmonizing the growing number of reliable historical observations with a clever rereading of the "Yaodian" (Qu 2008,  pp.187-95).Li Chunfeng and his contemporaries' skepticism was thereupon relegated to the dustbin of history.However, the monk's astronomy would have no impact on the place of Kong Yingda's Wujing zhengyi in Classical education and the civil service examinations.Centuries later, this led to a division among exegetes.Some, like Huang Zhencheng 黄鎮 成 (1287-1362), expanded upon Kong Yingda's reasoning. 55Others, like Chen Dayou 陳 大猷 (1198-1250), would conclude that "it is probably that no one between the two Kongs (Anguo and Yingda) and Wang Su knew that astronomers had a model for the annual difference" 蓋二孔、王肅皆不知曆家有歳差之法. 56Indeed, how could a "Confucian" (Rujia) like Kong Yingda have known anything about the work of an "astronomer" (lijia 曆家) like Liu Zhuo?
The history of the "annual difference" as a scientific construct is not linear, nor is it one that is neatly contained within the bounds of such simple, retrospective labels.It was equally a problem of the radically different epistemes of astronomy and exegesis, it passed through the hands of some of the most important figures in the history of Buddhism, Daoism, and Confucianism, and it was alternately ignored and rejected for four centuries in astronomy.One of the things that helps make sense of this history is thus placing the voices of the exegetes back in dialogue with those of the astronomers, as do K.Chen (2015) and Wang (2022).In this case, it reminds us that the entire scientific debate was, essentially, between Kong Anguo and Zheng Xuan's respective exegetical positions, and that the former's skepticism was no less legitimate, authoritative, or sensible so many centuries later.Equally important is situating the discussion in regard to geographical divisions and regional networks.After all, it is probably misleading to treat this as a "discussion" when the idea was exclusive to Jiankang until adopted by a peripheral Northern Qi school as part of their gambit to overturn the scientific establishment of their conquerors in Chang'an (Morgan 2021).
Lastly, while modern and premodern scholars alike tend to think of the history of astronomy as unfolding according to some teleology of progress or "accumulation" (ji 積) (Henderson 2006; Morgan 2017, pp.177-12), Li Chunfeng and Kong Yingda's sudden reversal from their master Liu Zhuo's position in their influential canons reminds us that things are not always so simple.It is possible to interpret this reversal at face value as a return to Kong Anguo, to responsible philology, and to the skepticism befitting both an astronomer and an exegete faced with a theory about intangible historical forces.However, given the very tangible forces of personal, regional, and political affiliations informing the history of the "annual difference" throughout, it is tempting to read this reversal through the lens of Collins (1998).Namely, it would appear that everything is fluid, and that each generation in an intellectual lineage like theirs stakes out a new, sometimes diametrically opposed set of positions in a bid to divide (or consolidate) the limited attention space of its contemporaries in favor of its distinction and perpetuation.Be it the one, the other, or both, what we are reading here in the timeless, state-sponsored "correct meaning" (zhengyi 正 義) of Kong Yingda's Confucian canon is an informed, context-specific dissenting opinion on a scientific matter in accordance with that personally advanced by him at court-one tacitly opposite the position of his master and presumed source text, and which would be definitively disproved two generations later by a Buddhist monk.

Figure 2 .
Figure 2. (a) The 28 lodges and 24 solar terms.(b) "Lodge entry-du" (ruxiu du 入宿度).(c)A "centered star" (zhongxing 中星).The du 度 is a linear measure of the circumference of an astronomical great circle defined as the daily displacement of the mean sun, meaning that there are as many du in a circle as there are days in the sidereal year and, roughly speaking, 365 1 4 du = 360 • , and 1 du = 0.99 • .The specific lodge widths and solar term association are as per He Chengtian 何承天 (370-447).

Figure 3 .
Figure 3. Map.Note that peoples' places of origin are given throughout at the level of the commandery (jun 郡) or prefecture (zhou 州).

Figure 4 .
Figure 4. Distribution of solar positions and centered stars according to He Chengtian's solar table for 443 (A) compared to the "Yaodian", as per Liu Chunfeng's analysis (B).As such, either the centered stars for the autumn equinox (AE) and summer solstice (SS) work, and Mane is too far east, or the winter solstice (WS) works and Barrens and Fire are too far west.Diagram based onQu (2008, p. 188,  Figure 3-14).

Figure 5 .
Figure 5. Illustration of Kong Yingda's description of the position of the sun and "centered stars" in the "Yaodian".