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Daniel Rutherford

Daniel Rutherford (3 November 1749 – 15 November 1819) was a Scottish , , and renowned for his isolation and identification of gas in 1772, a pivotal discovery in the . Born in to John Rutherford, a prominent and of medicine, he was educated at home and in before attending the , where he earned his M.A. and M.D. degrees, completing the latter in 1772 under the guidance of . Rutherford's breakthrough came through experiments in pneumatic chemistry, where he removed oxygen and from air using methods involving and with , leaving a residual "mephitic air" that neither supported nor , which he detailed in his doctoral thesis De aere fixo dicto aut Mephitico. This gas, later termed "azote" by and eventually , was independently identified around the same time by and , but Rutherford was the first to publish his findings. His work distinguished from carbonic acid gas and contributed to the emerging understanding of atmospheric composition during the Chemical Revolution. Following his chemical pursuits, Rutherford shifted focus to and , becoming a licentiate and fellow of the Royal College of Physicians of Edinburgh in 1776 and 1777, respectively, and serving as its president from 1796 to 1798. In 1786, he was appointed professor of at the and keeper of the Royal Botanic Garden, roles in which he advanced plant classification through publications like Characteres generum plantarum (1793) and expanded the garden's collections. A of Edinburgh and the Linnean Society, Rutherford also contributed to medical practice as a at the Royal Infirmary; he was the maternal uncle of and died in at age 70.

Personal Life

Family Background

Daniel Rutherford was born on 3 November 1749 in , , to Anne Mackay and John Rutherford (1695–1779), a distinguished and professor of medicine at the from 1726 to 1765. John Rutherford, educated at and later a fellow of the Royal College of Physicians of Edinburgh, played a key role in establishing the city's renowned medical school during the . Anne Mackay, his second wife and a descendant of the Lord Reay family, brought connections to Scottish nobility. The Rutherford family home in placed them firmly within the city's intellectual elite, amid the vibrant atmosphere of the , where professors, scientists, and philosophers gathered to advance knowledge in , chemistry, and the natural world. As a professor's household, it was a center of scholarly discourse, reflecting the era's emphasis on empirical inquiry and progress. Rutherford grew up with three full sisters: Jane (1747–1793), Janet (1753–1812), and Christian (c. 1759–1819). From his father's first marriage to Jean Swinton, he also had a half-sister, Rutherford, who married Sr., a to the ; this familial tie made Daniel the uncle of the celebrated novelist Sir . His father's prominent position as a leading medical educator deeply influenced Rutherford's early development, instilling a passion for and scientific experimentation that guided his future pursuits.

Marriage and Relatives

In , Daniel Rutherford married Harriet Mitchelson, the youngest daughter of John Mitchelson of Middleton, near . The couple resided in Hyndford's Close on the Royal Mile before moving in 1805 to 20 Picardy Place, where they shared a life centered on mutual companionship without children. Rutherford maintained close ties with his extended family, particularly his sisters Anne and Christian; Anne had married Walter Scott the elder in 1758 and was the mother of the renowned novelist (born 1771), whom Daniel supported as an affectionate uncle during his youth. Family life was marked by tragedy in late 1819, when Rutherford died suddenly on 15 November, followed on 17 December by his sister Christian and on 24 December by Anne.

Education and Early Career

University Studies

Following education at home and in England, Daniel Rutherford entered the in the mid-1760s, earning an M.A. before pursuing medical studies under prominent professors including William Cullen and . As the son of the university's Professor of Medicine, John Rutherford, he benefited from facilitated access to institutional resources during his studies. Joseph Black, renowned for his discovery of fixed air (carbon dioxide), served as a key mentor whose lectures on pneumatic chemistry significantly influenced Rutherford's developing interest in gases and their properties. Black's teachings provided a foundational framework for Rutherford's experimental approach, emphasizing precise observations of atmospheric components. Rutherford earned his Doctor of Medicine (MD) degree on 12 September 1772, submitting a dissertation titled Dissertatio inauguralis de aere fixo dicto aut mephitico, which centered on investigations of fixed air and the gases remaining after its removal through absorption. In the university laboratories, his preparatory experiments involved combustion of materials to alter air composition, testing the effects on live mice confined in sealed vessels to evaluate respiratory viability, and employing absorption agents like limewater to isolate specific gases.

Initial Medical Practice

Upon completing his travels in , Daniel Rutherford returned to in 1775 and established a private medical practice as a , which he maintained until 1786. This period marked his entry into professional clinical work, where he focused on patient consultations and care within the city's vibrant healthcare landscape. Rutherford quickly gained formal standing by becoming a Licentiate of the Royal College of Physicians of Edinburgh in 1776 and a Fellow in 1777, positions that bolstered his credibility among peers. A pivotal credential for his early recognition in medical circles was his 1772 doctoral dissertation, Dissertatio inauguralis de aere fixo aut mephitico, which explored the properties of what he termed "noxious air" (later identified as ) and distinguished it from fixed air (). This work, supervised by chemist , not only demonstrated Rutherford's expertise in pneumatic chemistry but also positioned him as an innovative thinker at the intersection of science and medicine. In his consultations, Rutherford integrated his chemical knowledge into patient treatments, particularly exploring the therapeutic potential of gases informed by his research on atmospheric components. This approach reflected the era's growing interest in "pneumatic ," where substances like airs were tested for curative effects on respiratory and other ailments. However, his early career presented challenges in balancing the demands of a demanding private practice with his persistent scientific inquiries, all within Edinburgh's competitive and expanding medical community, which attracted numerous talented practitioners and students.

Scientific Contributions

Isolation of Nitrogen

In 1772, Daniel Rutherford, a medical student at the under the supervision of , conducted experiments to investigate the composition of atmospheric air, building directly on Black's earlier identification of "fixed air" () and its absorption by alkaline substances like . Rutherford's work was framed within the , which posited that combustible materials released a substance called phlogiston during burning, and he sought to understand the "spoiled" or altered states of air after such processes. His experiments aimed to deplete air of its vital components, revealing a residual gas that he termed "phlogisticated air" or "mephitic air," later recognized as . The core procedure involved confining a measured volume of air in a sealed glass vessel and systematically removing its components. Rutherford consumed the oxygen—referred to as the "vital" or "dephlogisticated" part of air—through methods such as burning a candle until the flame extinguished, igniting phosphorus or charcoal until combustion ceased, or enclosing a mouse for respiration until it suffocated. He then passed the remaining gas through limewater (a solution of calcium hydroxide) to absorb any fixed air (CO2) produced during these processes, a technique adapted from Black's absorption methods. The residual gas, constituting a major portion of the original volume, was observed to be inert and harmful: it extinguished flames instantly, failed to support combustion of additional materials, and rapidly suffocated small animals like mice when inhaled, distinguishing it clearly from oxygen and carbon dioxide. These properties led Rutherford to describe it as "malignant" or "noxious air," unfit for life or fire. Rutherford detailed his findings in his Latin dissertation, Dissertatio Inauguralis de Aere Fixo Dicto aut Mephitico, presented on September 12, 1772, for his degree, marking the first published account of 's isolation. Although independently isolated the gas around the same time and reported similar observations in 1775, Rutherford's dissertation predated their publications, establishing his priority in the discovery. The work represented a pivotal advancement in pneumatic , though Rutherford interpreted the residual gas through the lens of phlogiston saturation rather than as a distinct .

Botanical and Medical Research

Rutherford's botanical research extended his chemical inquiries into applied sciences, particularly the intersection of chemistry and plant studies during the late . Following his appointment as Professor of at the in 1786, he oversaw the collection and cultivation of plants at the Royal Botanic Garden, emphasizing their utility in experimental contexts. He expanded the garden's collections, adding thousands of plant species through collaborations, such as with Olof Swartz, enhancing resources for botanical study. His approach to botany prioritized practical applications, using as subjects for chemical investigations to understand substance interactions with living organisms. In this vein, Rutherford employed to test the effects of various airs and compounds on and , building on contemporary observations that fixed air could invigorate vegetation rather than harm it. This work highlighted the role of gases in , demonstrating how "noxious" residues from or inhibited development, thus linking chemical composition to biological responses. Although his publications on these gas-plant interactions were limited post-1772, they contributed to the era's shift toward interdisciplinary experimentation, informing early understandings of environmental factors in and . Rutherford's medical research integrated botanical knowledge with , focusing on plant-derived substances for therapeutic use. As a practicing and at the Royal Infirmary from , he analyzed the chemical properties of to refine their application in treatments, advocating for systematic examination to isolate active components. His 1793 work, Characteres Generum Plantarum, excerpted from Linnaeus's Systema Vegetabilium and observations at , provided detailed characterizations of plant genera, facilitating the identification of species with pharmacological potential and supporting at . Through these efforts, Rutherford bridged chemistry, , and , exemplifying the emphasis on empirical, cross-disciplinary inquiry.

Later Career and Legacy

Academic Positions and Honors

In 1786, Daniel Rutherford was appointed as the of at the , succeeding John Hope, and simultaneously as Regius Keeper of the Royal Botanic Garden Edinburgh, a position he held until his retirement in 1819. His early reputation as a , particularly for isolating during his medical studies, contributed to these appointments by establishing his credentials in scientific inquiry relevant to botanical and medical . Rutherford also held the role of the first Professor of Practice of Physic () at the , overlapping with his botanical duties and reflecting the integrated nature of medical and studies at the time; this position allowed him to deliver clinical lectures at the Royal Infirmary starting in 1791, succeeding Henry Cullen as physician in ordinary. From 1796 to 1798, he served as President of the Royal College of Physicians of Edinburgh, having been a since 1777 and previously acting as its secretary for 11 years and censor for 6 years. Rutherford was a founding member of the Harveian Society of Edinburgh in 1782, where he later served as President in 1787, and a founding Fellow of the in 1783 (FRSE, with formal election noted in 1788). He was elected a (FLS) in 1796 and a (FSA Scot). Although Rutherford's administrative leadership as Keeper expanded the garden's collections through the work of principal gardeners like William Aiton and James Meikle, his botanical teaching was criticized as uninspired and rote, prioritizing practical oversight over innovative instruction or original research.

Death and Lasting Impact

Daniel Rutherford died suddenly on 15 November 1819 in at the age of 70, likely due to complications from that had afflicted him since childhood and worsened in later years. He was buried five days later on 20 November at St John's Chapel graveyard in . Rutherford's isolation of nitrogen in 1772 marked a foundational advancement in chemistry, initially interpreted through the as "atmospheric air saturated with phlogiston," but ultimately contributing to its overthrow by providing empirical evidence for distinct atmospheric gases. This work enabled to refine the composition of air as a of approximately 78% (which he termed azote) and 21% oxygen by the late , laying the groundwork for modern pneumatic chemistry and the recognition of elements beyond the classical four. His first publication on the subject, the 1772 dissertation De aere fixo dicto aut mephitico, was the earliest formal account of nitrogen's properties, profoundly shaping international research on atmospheric gases despite Rutherford's relatively modest body of work thereafter. In , Rutherford's tenure as and Keeper of the Royal Botanic Garden from 1786 to 1819 drove significant administrative growth, including the introduction of a wealth of tropical and that enriched the garden's collections and supported Linnaean systematic studies. His contributions to are honored by the standard "Rutherf.," used in citing botanical names for he described or co-authored, such as in his 1793 work Characteres generum plantarum. Overall, Rutherford's dual legacy in and underscores his foundational influence on scientific understanding of gases and diversity, even as his career emphasized teaching and institutional leadership over prolific publication.

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